The codata-recommended-values Reference Manual

This is the codata-recommended-values Reference Manual, version 20191227.2113, generated automatically by Declt version 4.0 beta 2 "William Riker" on Mon Feb 26 16:04:42 2024 GMT+0.

Table of Contents


1 Introduction


2 Systems

The main system appears first, followed by any subsystem dependency.


2.1 codata-recommended-values

CODATA recommended values of physical constants.

Author

Ralph Schleicher <>

License

Modified BSD License

Version

20191227.2113

Source

codata-recommended-values.asd.

Child Components

3 Files

Files are sorted by type and then listed depth-first from the systems components trees.


3.1 Lisp


3.1.1 codata-recommended-values/codata-recommended-values.asd

Source

codata-recommended-values.asd.

Parent Component

codata-recommended-values (system).

ASDF Systems

codata-recommended-values.


3.1.2 codata-recommended-values/codata-common.lisp

Source

codata-recommended-values.asd.

Parent Component

codata-recommended-values (system).

Packages

codata-recommended-values-common.

Public Interface

3.1.3 codata-recommended-values/codata-2010.lisp

Dependency

codata-common.lisp (file).

Source

codata-recommended-values.asd.

Parent Component

codata-recommended-values (system).

Packages

codata-recommended-values-2010.

Public Interface
Internals

with-early-bindings (macro).


3.1.4 codata-recommended-values/codata-2014.lisp

Dependency

codata-2010.lisp (file).

Source

codata-recommended-values.asd.

Parent Component

codata-recommended-values (system).

Packages

codata-recommended-values-2014.

Public Interface
Internals

with-early-bindings (macro).


3.1.5 codata-recommended-values/codata-2018.lisp

Dependency

codata-2014.lisp (file).

Source

codata-recommended-values.asd.

Parent Component

codata-recommended-values (system).

Packages

codata-recommended-values-2018.

Public Interface
Internals

with-early-bindings (macro).


3.1.6 codata-recommended-values/codata.lisp

Dependency

codata-2018.lisp (file).

Source

codata-recommended-values.asd.

Parent Component

codata-recommended-values (system).

Packages

codata-recommended-values.

Public Interface

string-value (function).


4 Packages

Packages are listed by definition order.


4.1 codata-recommended-values

CODATA recommended values of physical constants.

See <http://physics.nist.gov/cuu/index.html>.

All CODATA recommended values are defined as a constant and as a function. The function returns three values, the value of the constant, the standard uncertainty, and the relative standard uncertainty. Floating-point numbers are of the type ‘long-float’. Please note that some of the constants have values which can not be represented as IEEE 754 single precision floating-point numbers.

This package also exports the symbols of the 2018 CODATA recommended values.

Source

codata.lisp.

Use List
Public Interface

string-value (function).


4.2 codata-recommended-values-2018

2018 CODATA recommended values.

Source

codata-2018.lisp.

Use List
Public Interface
Internals

with-early-bindings (macro).


4.3 codata-recommended-values-2010

2010 CODATA recommended values.

Source

codata-2010.lisp.

Use List
Public Interface
Internals

with-early-bindings (macro).


4.4 codata-recommended-values-2014

2014 CODATA recommended values.

Source

codata-2014.lisp.

Use List
Public Interface
Internals

with-early-bindings (macro).


4.5 codata-recommended-values-common

Common definitions.

Use at your own risk.

Source

codata-common.lisp.

Use List

common-lisp.

Used By List
Public Interface

5 Definitions

Definitions are sorted by export status, category, package, and then by lexicographic order.


5.1 Public Interface


5.1.1 Constants

Constant: 220-lattice-spacing-of-silicon

{220} lattice spacing of silicon.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?d220sil>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: 220-lattice-spacing-of-silicon

{220} lattice spacing of silicon.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?d220sil>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: alpha-particle-electron-mass-ratio

Alpha particle-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: alpha-particle-electron-mass-ratio

Alpha particle-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: alpha-particle-electron-mass-ratio

Alpha particle-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: alpha-particle-mass

Alpha particle mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mal>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: alpha-particle-mass

Alpha particle mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mal>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: alpha-particle-mass

Alpha particle mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mal>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: alpha-particle-mass-energy-equivalent

Alpha particle mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: alpha-particle-mass-energy-equivalent

Alpha particle mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: alpha-particle-mass-energy-equivalent

Alpha particle mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: alpha-particle-mass-energy-equivalent-in-mev

Alpha particle mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: alpha-particle-mass-energy-equivalent-in-mev

Alpha particle mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: alpha-particle-mass-energy-equivalent-in-mev

Alpha particle mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: alpha-particle-mass-in-u

Alpha particle mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: alpha-particle-mass-in-u

Alpha particle mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: alpha-particle-mass-in-u

Alpha particle mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: alpha-particle-molar-mass

Alpha particle molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmal>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: alpha-particle-molar-mass

Alpha particle molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmal>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: alpha-particle-molar-mass

Alpha particle molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmal>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: alpha-particle-proton-mass-ratio

Alpha particle-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: alpha-particle-proton-mass-ratio

Alpha particle-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: alpha-particle-proton-mass-ratio

Alpha particle-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: alpha-particle-relative-atomic-mass

Alpha particle relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aral>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: angstrom-star

Angstrom star.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?angstar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: angstrom-star

Angstrom star.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?angstar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: angstrom-star

Angstrom star.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?angstar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-mass-constant

Atomic mass constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?u>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-mass-constant

Atomic mass constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?u>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-mass-constant

Atomic mass constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?u>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-mass-constant-energy-equivalent

Atomic mass constant energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uj>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-mass-constant-energy-equivalent

Atomic mass constant energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tuj>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-mass-constant-energy-equivalent

Atomic mass constant energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tuj>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-mass-constant-energy-equivalent-in-mev

Atomic mass constant energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muc2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-mass-constant-energy-equivalent-in-mev

Atomic mass constant energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muc2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-mass-constant-energy-equivalent-in-mev

Atomic mass constant energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muc2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-mass-unit-electron-volt-relationship

Atomic mass unit-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-mass-unit-electron-volt-relationship

Atomic mass unit-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-mass-unit-electron-volt-relationship

Atomic mass unit-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-mass-unit-hartree-relationship

Atomic mass unit-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhr>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-mass-unit-hartree-relationship

Atomic mass unit-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhr>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-mass-unit-hartree-relationship

Atomic mass unit-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhr>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-mass-unit-hertz-relationship

Atomic mass unit-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-mass-unit-hertz-relationship

Atomic mass unit-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhz>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-mass-unit-hertz-relationship

Atomic mass unit-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhz>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-mass-unit-inverse-meter-relationship

Atomic mass unit-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uminv>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-mass-unit-inverse-meter-relationship

Atomic mass unit-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uminv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-mass-unit-inverse-meter-relationship

Atomic mass unit-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uminv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-mass-unit-joule-relationship

Atomic mass unit-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Ruj>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-mass-unit-joule-relationship

Atomic mass unit-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uj>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-mass-unit-joule-relationship

Atomic mass unit-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uj>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-mass-unit-kelvin-relationship

Atomic mass unit-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uk>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-mass-unit-kelvin-relationship

Atomic mass unit-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uk>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-mass-unit-kelvin-relationship

Atomic mass unit-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uk>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-mass-unit-kilogram-relationship

Atomic mass unit-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Rukg>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-mass-unit-kilogram-relationship

Atomic mass unit-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ukg>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-mass-unit-kilogram-relationship

Atomic mass unit-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ukg>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-action

Atomic unit of action.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Ahbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-action

Atomic unit of action.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tthbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-action

Atomic unit of action.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tthbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-charge

Atomic unit of charge.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Ae>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-charge

Atomic unit of charge.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?te>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-charge

Atomic unit of charge.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?te>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-charge-density

Atomic unit of charge density.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucd>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-charge-density

Atomic unit of charge density.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucd>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-charge-density

Atomic unit of charge density.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucd>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-current

Atomic unit of current.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucur>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-current

Atomic unit of current.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucur>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-current

Atomic unit of current.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucur>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-electric-dipole-moment

Atomic unit of electric dipole moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auedm>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-electric-dipole-moment

Atomic unit of electric dipole moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auedm>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-electric-dipole-moment

Atomic unit of electric dipole moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auedm>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-electric-field

Atomic unit of electric field.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefld>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-electric-field

Atomic unit of electric field.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefld>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-electric-field

Atomic unit of electric field.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefld>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-electric-field-gradient

Atomic unit of electric field gradient.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefg>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-electric-field-gradient

Atomic unit of electric field gradient.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefg>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-electric-field-gradient

Atomic unit of electric field gradient.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefg>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-electric-polarizability

Atomic unit of electric polarizability.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auepol>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-electric-polarizability

Atomic unit of electric polarizability.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auepol>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-electric-polarizability

Atomic unit of electric polarizability.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auepol>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-electric-potential

Atomic unit of electric potential.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auep>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-electric-potential

Atomic unit of electric potential.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auep>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-electric-potential

Atomic unit of electric potential.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auep>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-electric-quadrupole-moment

Atomic unit of electric quadrupole moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aueqm>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-electric-quadrupole-moment

Atomic unit of electric quadrupole moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aueqm>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-electric-quadrupole-moment

Atomic unit of electric quadrupole moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aueqm>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-energy

Atomic unit of energy.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Ahr>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-energy

Atomic unit of energy.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thr>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-energy

Atomic unit of energy.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thr>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-first-hyperpolarizability

Atomic unit of first hyperpolarizability.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auhypol>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-first-hyperpolarizability

Atomic unit of first hyperpolarizability.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auhypol>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-first-hyperpolarizability

Atomic unit of first hyperpolarizability.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auhypol>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-force

Atomic unit of force.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auforce>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-force

Atomic unit of force.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auforce>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-force

Atomic unit of force.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auforce>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-length

Atomic unit of length.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Abohrrada0>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-length

Atomic unit of length.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tbohrrada0>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-length

Atomic unit of length.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tbohrrada0>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-magnetic-dipole-moment

Atomic unit of magnetic dipole moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumdm>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-magnetic-dipole-moment

Atomic unit of magnetic dipole moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumdm>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-magnetic-dipole-moment

Atomic unit of magnetic dipole moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumdm>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-magnetic-flux-density

Atomic unit of magnetic flux density.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumfd>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-magnetic-flux-density

Atomic unit of magnetic flux density.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumfd>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-magnetic-flux-density

Atomic unit of magnetic flux density.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumfd>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-magnetizability

Atomic unit of magnetizability.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumag>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-magnetizability

Atomic unit of magnetizability.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumag>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-magnetizability

Atomic unit of magnetizability.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumag>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-mass

Atomic unit of mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Ame>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-mass

Atomic unit of mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ttme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-mass

Atomic unit of mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ttme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-momentum

Atomic unit of momentum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumom>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-momentum

Atomic unit of momentum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumom>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-momentum

Atomic unit of momentum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumom>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-permittivity

Atomic unit of permittivity.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auperm>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-permittivity

Atomic unit of permittivity.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auperm>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-permittivity

Atomic unit of permittivity.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auperm>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-second-hyperpolarizability

Atomic unit of second hyperpolarizability.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?au2hypol>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-second-hyperpolarizability

Atomic unit of second hyperpolarizability.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?au2hypol>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-second-hyperpolarizability

Atomic unit of second hyperpolarizability.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?au2hypol>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-time

Atomic unit of time.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aut>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-time

Atomic unit of time.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aut>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-time

Atomic unit of time.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aut>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: atomic-unit-of-velocity

Atomic unit of velocity.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auvel>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: atomic-unit-of-velocity

Atomic unit of velocity.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auvel>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: atomic-unit-of-velocity

Atomic unit of velocity.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auvel>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: avogadro-constant

Avogadro constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?na>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: avogadro-constant

Avogadro constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?na>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: avogadro-constant

Avogadro constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?na>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: bohr-magneton

Bohr magneton.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mub>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: bohr-magneton

Bohr magneton.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mub>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: bohr-magneton

Bohr magneton.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mub>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: bohr-magneton-in-ev/t

Bohr magneton in eV/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: bohr-magneton-in-ev/t

Bohr magneton in eV/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: bohr-magneton-in-ev/t

Bohr magneton in eV/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: bohr-magneton-in-hz/t

Bohr magneton in Hz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshhz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: bohr-magneton-in-hz/t

Bohr magneton in Hz/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshhz>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: bohr-magneton-in-hz/t

Bohr magneton in Hz/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshhz>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: bohr-magneton-in-inverse-meter-per-tesla

Bohr magneton in inverse meter per tesla.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshcminv>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: bohr-magneton-in-inverse-meters-per-tesla

Bohr magneton in inverse meters per tesla.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshcminv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: bohr-magneton-in-inverse-meters-per-tesla

Bohr magneton in inverse meters per tesla.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshcminv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: bohr-magneton-in-k/t

Bohr magneton in K/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubskk>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: bohr-magneton-in-k/t

Bohr magneton in K/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubskk>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: bohr-magneton-in-k/t

Bohr magneton in K/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubskk>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: bohr-radius

Bohr radius.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bohrrada0>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: bohr-radius

Bohr radius.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bohrrada0>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: bohr-radius

Bohr radius.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bohrrada0>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: boltzmann-constant

Boltzmann constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?k>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: boltzmann-constant

Boltzmann constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?k>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: boltzmann-constant

Boltzmann constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?k>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: boltzmann-constant-in-ev/k

Boltzmann constant in eV/K.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: boltzmann-constant-in-ev/k

Boltzmann constant in eV/K.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tkev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: boltzmann-constant-in-ev/k

Boltzmann constant in eV/K.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tkev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: boltzmann-constant-in-hz/k

Boltzmann constant in Hz/K.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshhz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: boltzmann-constant-in-hz/k

Boltzmann constant in Hz/K.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshhz>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: boltzmann-constant-in-hz/k

Boltzmann constant in Hz/K.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshhz>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: boltzmann-constant-in-inverse-meter-per-kelvin

Boltzmann constant in inverse meter per kelvin.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshcminv>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: boltzmann-constant-in-inverse-meters-per-kelvin

Boltzmann constant in inverse meters per kelvin.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshcminv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: boltzmann-constant-in-inverse-meters-per-kelvin

Boltzmann constant in inverse meters per kelvin.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshcminv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: characteristic-impedance-of-vacuum

Characteristic impedance of vacuum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?z0>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: characteristic-impedance-of-vacuum

Characteristic impedance of vacuum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?z0>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: characteristic-impedance-of-vacuum

Characteristic impedance of vacuum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?z0>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: classical-electron-radius

Classical electron radius.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?re>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: classical-electron-radius

Classical electron radius.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?re>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: classical-electron-radius

Classical electron radius.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?re>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: compton-wavelength

Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwl>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: compton-wavelength

Compton wavelength.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwl>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: compton-wavelength

Compton wavelength.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwl>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: compton-wavelength-over-2-pi

Compton wavelength over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwlbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: compton-wavelength-over-2-pi

Compton wavelength over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwlbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: conductance-quantum

Conductance quantum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?conqu2e2sh>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: conductance-quantum

Conductance quantum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?conqu2e2sh>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: conductance-quantum

Conductance quantum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?conqu2e2sh>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: conventional-value-of-ampere-90

Conventional value of ampere-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ampere90>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: conventional-value-of-coulomb-90

Conventional value of coulomb-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?charge90>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: conventional-value-of-farad-90

Conventional value of farad-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?capacitance90>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: conventional-value-of-henry-90

Conventional value of henry-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?inductance90>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: conventional-value-of-josephson-constant

Conventional value of Josephson constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj90>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: conventional-value-of-josephson-constant

Conventional value of Josephson constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj90>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: conventional-value-of-josephson-constant

Conventional value of Josephson constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj90>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: conventional-value-of-ohm-90

Conventional value of ohm-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ohm90>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: conventional-value-of-volt-90

Conventional value of volt-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?volt90>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: conventional-value-of-von-klitzing-constant

Conventional value of von Klitzing constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk90>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: conventional-value-of-von-klitzing-constant

Conventional value of von Klitzing constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk90>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: conventional-value-of-von-klitzing-constant

Conventional value of von Klitzing constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk90>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: conventional-value-of-watt-90

Conventional value of watt-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?power90>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: copper-x-unit

Copper x unit.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xucukalph1>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: cu-x-unit

Cu x unit.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xucukalph1>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: cu-x-unit

Cu x unit.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xucukalph1>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-electron-magnetic-moment-ratio

Deuteron-electron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmuem>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-electron-magnetic-moment-ratio

Deuteron-electron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmuem>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-electron-magnetic-moment-ratio

Deuteron-electron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmuem>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-electron-mass-ratio

Deuteron-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-electron-mass-ratio

Deuteron-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-electron-mass-ratio

Deuteron-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-g-factor

Deuteron g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gdn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-g-factor

Deuteron g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gdn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-g-factor

Deuteron g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gdn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-magnetic-moment

Deuteron magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mud>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-magnetic-moment

Deuteron magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mud>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-magnetic-moment

Deuteron magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mud>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-magnetic-moment-to-bohr-magneton-ratio

Deuteron magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmub>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-magnetic-moment-to-bohr-magneton-ratio

Deuteron magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmub>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-magnetic-moment-to-bohr-magneton-ratio

Deuteron magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmub>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-magnetic-moment-to-nuclear-magneton-ratio

Deuteron magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmun>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-magnetic-moment-to-nuclear-magneton-ratio

Deuteron magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmun>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-magnetic-moment-to-nuclear-magneton-ratio

Deuteron magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmun>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-mass

Deuteron mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?md>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-mass

Deuteron mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?md>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-mass

Deuteron mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?md>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-mass-energy-equivalent

Deuteron mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-mass-energy-equivalent

Deuteron mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-mass-energy-equivalent

Deuteron mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-mass-energy-equivalent-in-mev

Deuteron mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-mass-energy-equivalent-in-mev

Deuteron mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-mass-energy-equivalent-in-mev

Deuteron mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-mass-in-u

Deuteron mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-mass-in-u

Deuteron mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-mass-in-u

Deuteron mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-molar-mass

Deuteron molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmd>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-molar-mass

Deuteron molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmd>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-molar-mass

Deuteron molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmd>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-neutron-magnetic-moment-ratio

Deuteron-neutron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmunn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-neutron-magnetic-moment-ratio

Deuteron-neutron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmunn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-neutron-magnetic-moment-ratio

Deuteron-neutron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmunn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-proton-magnetic-moment-ratio

Deuteron-proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmup>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-proton-magnetic-moment-ratio

Deuteron-proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmup>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-proton-magnetic-moment-ratio

Deuteron-proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmup>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-proton-mass-ratio

Deuteron-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-proton-mass-ratio

Deuteron-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-proton-mass-ratio

Deuteron-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: deuteron-relative-atomic-mass

Deuteron relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ard>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-rms-charge-radius

Deuteron rms charge radius.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rd>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: deuteron-rms-charge-radius

Deuteron rms charge radius.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rd>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: deuteron-rms-charge-radius

Deuteron rms charge radius.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rd>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electric-constant

Electric constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ep0>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electric-constant

Electric constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ep0>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-charge-to-mass-quotient

Electron charge to mass quotient.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-charge-to-mass-quotient

Electron charge to mass quotient.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-charge-to-mass-quotient

Electron charge to mass quotient.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-deuteron-magnetic-moment-ratio

Electron-deuteron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmud>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-deuteron-magnetic-moment-ratio

Electron-deuteron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmud>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-deuteron-magnetic-moment-ratio

Electron-deuteron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmud>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-deuteron-mass-ratio

Electron-deuteron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmd>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-deuteron-mass-ratio

Electron-deuteron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmd>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-deuteron-mass-ratio

Electron-deuteron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmd>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-g-factor

Electron g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gem>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-g-factor

Electron g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gem>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-g-factor

Electron g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gem>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-gyromagnetic-ratio

Electron gyromagnetic ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammae>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-gyromagnetic-ratio

Electron gyromagnetic ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammae>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-gyromagnetic-ratio

Electron gyromagnetic ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammae>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-gyromagnetic-ratio-in-mhz/t

Electron gyromagnetic ratio in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammaebar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-gyromagnetic-ratio-over-2-pi

Electron gyromagnetic ratio over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammaebar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-gyromagnetic-ratio-over-2-pi

Electron gyromagnetic ratio over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammaebar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-helion-mass-ratio

Electron-helion mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmh>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-helion-mass-ratio

Electron-helion mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmh>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-helion-mass-ratio

Electron-helion mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmh>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-magnetic-moment

Electron magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muem>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-magnetic-moment

Electron magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muem>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-magnetic-moment

Electron magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muem>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-magnetic-moment-anomaly

Electron magnetic moment anomaly.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ae>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-magnetic-moment-anomaly

Electron magnetic moment anomaly.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ae>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-magnetic-moment-anomaly

Electron magnetic moment anomaly.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ae>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-magnetic-moment-to-bohr-magneton-ratio

Electron magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmub>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-magnetic-moment-to-bohr-magneton-ratio

Electron magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmub>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-magnetic-moment-to-bohr-magneton-ratio

Electron magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmub>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-magnetic-moment-to-nuclear-magneton-ratio

Electron magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmun>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-magnetic-moment-to-nuclear-magneton-ratio

Electron magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmun>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-magnetic-moment-to-nuclear-magneton-ratio

Electron magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmun>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-mass

Electron mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?me>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-mass

Electron mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?me>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-mass

Electron mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?me>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-mass-energy-equivalent

Electron mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-mass-energy-equivalent

Electron mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-mass-energy-equivalent

Electron mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-mass-energy-equivalent-in-mev

Electron mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-mass-energy-equivalent-in-mev

Electron mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-mass-energy-equivalent-in-mev

Electron mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-mass-in-u

Electron mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?meu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-mass-in-u

Electron mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?meu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-mass-in-u

Electron mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?meu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-molar-mass

Electron molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-molar-mass

Electron molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-molar-mass

Electron molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-muon-magnetic-moment-ratio

Electron-muon magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmumum>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-muon-magnetic-moment-ratio

Electron-muon magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmumum>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-muon-magnetic-moment-ratio

Electron-muon magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmumum>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-muon-mass-ratio

Electron-muon mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmmu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-muon-mass-ratio

Electron-muon mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmmu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-muon-mass-ratio

Electron-muon mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmmu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-neutron-magnetic-moment-ratio

Electron-neutron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmunn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-neutron-magnetic-moment-ratio

Electron-neutron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmunn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-neutron-magnetic-moment-ratio

Electron-neutron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmunn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-neutron-mass-ratio

Electron-neutron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-neutron-mass-ratio

Electron-neutron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-neutron-mass-ratio

Electron-neutron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-proton-magnetic-moment-ratio

Electron-proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmup>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-proton-magnetic-moment-ratio

Electron-proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmup>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-proton-magnetic-moment-ratio

Electron-proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmup>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-proton-mass-ratio

Electron-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-proton-mass-ratio

Electron-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-proton-mass-ratio

Electron-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-relative-atomic-mass

Electron relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?are>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-tau-mass-ratio

Electron-tau mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmtau>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-tau-mass-ratio

Electron-tau mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmtau>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-tau-mass-ratio

Electron-tau mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmtau>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-to-alpha-particle-mass-ratio

Electron to alpha particle mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmalpha>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-to-alpha-particle-mass-ratio

Electron to alpha particle mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmalpha>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-to-alpha-particle-mass-ratio

Electron to alpha particle mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmalpha>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-to-shielded-helion-magnetic-moment-ratio

Electron to shielded helion magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmuhp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-to-shielded-helion-magnetic-moment-ratio

Electron to shielded helion magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmuhp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-to-shielded-helion-magnetic-moment-ratio

Electron to shielded helion magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmuhp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-to-shielded-proton-magnetic-moment-ratio

Electron to shielded proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmupp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-to-shielded-proton-magnetic-moment-ratio

Electron to shielded proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmupp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-to-shielded-proton-magnetic-moment-ratio

Electron to shielded proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmupp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-triton-mass-ratio

Electron-triton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmt>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-triton-mass-ratio

Electron-triton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmt>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-triton-mass-ratio

Electron-triton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmt>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-volt

Electron volt.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evj>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-volt

Electron volt.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tevj>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-volt

Electron volt.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tevj>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-volt-atomic-mass-unit-relationship

Electron volt-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-volt-atomic-mass-unit-relationship

Electron volt-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-volt-atomic-mass-unit-relationship

Electron volt-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-volt-hartree-relationship

Electron volt-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhr>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-volt-hartree-relationship

Electron volt-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhr>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-volt-hartree-relationship

Electron volt-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhr>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-volt-hertz-relationship

Electron volt-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-volt-hertz-relationship

Electron volt-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhz>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-volt-hertz-relationship

Electron volt-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhz>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-volt-inverse-meter-relationship

Electron volt-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evminv>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-volt-inverse-meter-relationship

Electron volt-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evminv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-volt-inverse-meter-relationship

Electron volt-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evminv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-volt-joule-relationship

Electron volt-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Revj>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-volt-joule-relationship

Electron volt-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evj>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-volt-joule-relationship

Electron volt-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evj>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-volt-kelvin-relationship

Electron volt-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evk>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-volt-kelvin-relationship

Electron volt-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evk>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-volt-kelvin-relationship

Electron volt-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evk>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: electron-volt-kilogram-relationship

Electron volt-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evkg>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: electron-volt-kilogram-relationship

Electron volt-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evkg>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: electron-volt-kilogram-relationship

Electron volt-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evkg>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: elementary-charge

Elementary charge.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?e>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: elementary-charge

Elementary charge.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?e>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: elementary-charge

Elementary charge.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?e>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: elementary-charge-over-h

Elementary charge over h.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esh>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: elementary-charge-over-h

Elementary charge over h.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esh>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: elementary-charge-over-h-bar

Elementary charge over h-bar.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?eshbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: faraday-constant

Faraday constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?f>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: faraday-constant

Faraday constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?f>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: faraday-constant

Faraday constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?f>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: faraday-constant-for-conventional-electric-current

Faraday constant for conventional electric current.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?f90>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: faraday-constant-for-conventional-electric-current

Faraday constant for conventional electric current.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?f90>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: fermi-coupling-constant

Fermi coupling constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gf>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: fermi-coupling-constant

Fermi coupling constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gf>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: fermi-coupling-constant

Fermi coupling constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gf>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: fine-structure-constant

Fine-structure constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alph>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: fine-structure-constant

Fine-structure constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alph>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: fine-structure-constant

Fine-structure constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alph>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: first-radiation-constant

First radiation constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c11strc>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: first-radiation-constant

First radiation constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c11strc>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: first-radiation-constant

First radiation constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c11strc>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: first-radiation-constant-for-spectral-radiance

First radiation constant for spectral radiance.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c1l>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: first-radiation-constant-for-spectral-radiance

First radiation constant for spectral radiance.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c1l>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: first-radiation-constant-for-spectral-radiance

First radiation constant for spectral radiance.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c1l>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hartree-atomic-mass-unit-relationship

Hartree-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hru>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hartree-atomic-mass-unit-relationship

Hartree-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hru>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hartree-atomic-mass-unit-relationship

Hartree-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hru>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hartree-electron-volt-relationship

Hartree-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Rhrev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hartree-electron-volt-relationship

Hartree-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hartree-electron-volt-relationship

Hartree-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hartree-energy

Hartree energy.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hr>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hartree-energy

Hartree energy.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hr>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hartree-energy

Hartree energy.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hr>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hartree-energy-in-ev

Hartree energy in eV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hartree-energy-in-ev

Hartree energy in eV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?threv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hartree-energy-in-ev

Hartree energy in eV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?threv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hartree-hertz-relationship

Hartree-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrhz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hartree-hertz-relationship

Hartree-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrhz>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hartree-hertz-relationship

Hartree-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrhz>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hartree-inverse-meter-relationship

Hartree-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrminv>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hartree-inverse-meter-relationship

Hartree-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrminv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hartree-inverse-meter-relationship

Hartree-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrminv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hartree-joule-relationship

Hartree-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrj>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hartree-joule-relationship

Hartree-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrj>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hartree-joule-relationship

Hartree-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrj>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hartree-kelvin-relationship

Hartree-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrk>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hartree-kelvin-relationship

Hartree-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrk>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hartree-kelvin-relationship

Hartree-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrk>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hartree-kilogram-relationship

Hartree-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrkg>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hartree-kilogram-relationship

Hartree-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrkg>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hartree-kilogram-relationship

Hartree-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrkg>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-electron-mass-ratio

Helion-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-electron-mass-ratio

Helion-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: helion-electron-mass-ratio

Helion-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-g-factor

Helion g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ghn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-g-factor

Helion g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ghn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: helion-g-factor

Helion g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ghn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-magnetic-moment

Helion magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muh>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-magnetic-moment

Helion magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muh>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: helion-magnetic-moment

Helion magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muh>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-magnetic-moment-to-bohr-magneton-ratio

Helion magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmub>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-magnetic-moment-to-bohr-magneton-ratio

Helion magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmub>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: helion-magnetic-moment-to-bohr-magneton-ratio

Helion magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmub>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-magnetic-moment-to-nuclear-magneton-ratio

Helion magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmun>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-magnetic-moment-to-nuclear-magneton-ratio

Helion magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmun>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: helion-magnetic-moment-to-nuclear-magneton-ratio

Helion magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmun>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-mass

Helion mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mh>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-mass

Helion mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mh>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: helion-mass

Helion mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mh>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-mass-energy-equivalent

Helion mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-mass-energy-equivalent

Helion mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: helion-mass-energy-equivalent

Helion mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-mass-energy-equivalent-in-mev

Helion mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-mass-energy-equivalent-in-mev

Helion mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: helion-mass-energy-equivalent-in-mev

Helion mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-mass-in-u

Helion mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-mass-in-u

Helion mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: helion-mass-in-u

Helion mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-molar-mass

Helion molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmh>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-molar-mass

Helion molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmh>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: helion-molar-mass

Helion molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmh>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-proton-mass-ratio

Helion-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-proton-mass-ratio

Helion-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: helion-proton-mass-ratio

Helion-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: helion-relative-atomic-mass

Helion relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?arh>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: helion-shielding-shift

Helion shielding shift.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmah>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hertz-atomic-mass-unit-relationship

Hertz-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hertz-atomic-mass-unit-relationship

Hertz-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hertz-atomic-mass-unit-relationship

Hertz-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hertz-electron-volt-relationship

Hertz-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hertz-electron-volt-relationship

Hertz-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hertz-electron-volt-relationship

Hertz-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hertz-hartree-relationship

Hertz-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzhr>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hertz-hartree-relationship

Hertz-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzhr>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hertz-hartree-relationship

Hertz-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzhr>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hertz-inverse-meter-relationship

Hertz-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzminv>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hertz-inverse-meter-relationship

Hertz-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzminv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hertz-inverse-meter-relationship

Hertz-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzminv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hertz-joule-relationship

Hertz-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzj>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hertz-joule-relationship

Hertz-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzj>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hertz-joule-relationship

Hertz-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzj>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hertz-kelvin-relationship

Hertz-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzk>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hertz-kelvin-relationship

Hertz-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzk>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hertz-kelvin-relationship

Hertz-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzk>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hertz-kilogram-relationship

Hertz-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzkg>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: hertz-kilogram-relationship

Hertz-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzkg>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: hertz-kilogram-relationship

Hertz-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzkg>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: hyperfine-transition-frequency-of-caesium-133

Hyperfine transition frequency of caesium-133.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nucs>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: inverse-fine-structure-constant

Inverse fine-structure constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alphinv>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: inverse-fine-structure-constant

Inverse fine-structure constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alphinv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: inverse-fine-structure-constant

Inverse fine-structure constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alphinv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: inverse-meter-atomic-mass-unit-relationship

Inverse meter-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: inverse-meter-atomic-mass-unit-relationship

Inverse meter-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: inverse-meter-atomic-mass-unit-relationship

Inverse meter-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: inverse-meter-electron-volt-relationship

Inverse meter-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: inverse-meter-electron-volt-relationship

Inverse meter-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: inverse-meter-electron-volt-relationship

Inverse meter-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: inverse-meter-hartree-relationship

Inverse meter-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhr>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: inverse-meter-hartree-relationship

Inverse meter-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhr>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: inverse-meter-hartree-relationship

Inverse meter-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhr>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: inverse-meter-hertz-relationship

Inverse meter-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: inverse-meter-hertz-relationship

Inverse meter-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhz>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: inverse-meter-hertz-relationship

Inverse meter-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhz>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: inverse-meter-joule-relationship

Inverse meter-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvj>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: inverse-meter-joule-relationship

Inverse meter-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvj>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: inverse-meter-joule-relationship

Inverse meter-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvj>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: inverse-meter-kelvin-relationship

Inverse meter-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvk>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: inverse-meter-kelvin-relationship

Inverse meter-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvk>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: inverse-meter-kelvin-relationship

Inverse meter-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvk>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: inverse-meter-kilogram-relationship

Inverse meter-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvkg>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: inverse-meter-kilogram-relationship

Inverse meter-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvkg>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: inverse-meter-kilogram-relationship

Inverse meter-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvkg>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: inverse-of-conductance-quantum

Inverse of conductance quantum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?invconqu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: inverse-of-conductance-quantum

Inverse of conductance quantum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?invconqu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: inverse-of-conductance-quantum

Inverse of conductance quantum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?invconqu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: josephson-constant

Josephson constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kjos>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: josephson-constant

Josephson constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kjos>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: josephson-constant

Josephson constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kjos>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: joule-atomic-mass-unit-relationship

Joule-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ju>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: joule-atomic-mass-unit-relationship

Joule-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ju>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: joule-atomic-mass-unit-relationship

Joule-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ju>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: joule-electron-volt-relationship

Joule-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: joule-electron-volt-relationship

Joule-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: joule-electron-volt-relationship

Joule-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: joule-hartree-relationship

Joule-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhr>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: joule-hartree-relationship

Joule-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhr>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: joule-hartree-relationship

Joule-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhr>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: joule-hertz-relationship

Joule-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: joule-hertz-relationship

Joule-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhz>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: joule-hertz-relationship

Joule-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhz>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: joule-inverse-meter-relationship

Joule-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jminv>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: joule-inverse-meter-relationship

Joule-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jminv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: joule-inverse-meter-relationship

Joule-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jminv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: joule-kelvin-relationship

Joule-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jk>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: joule-kelvin-relationship

Joule-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jk>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: joule-kelvin-relationship

Joule-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jk>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: joule-kilogram-relationship

Joule-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jkg>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: joule-kilogram-relationship

Joule-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jkg>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: joule-kilogram-relationship

Joule-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jkg>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kelvin-atomic-mass-unit-relationship

Kelvin-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ku>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kelvin-atomic-mass-unit-relationship

Kelvin-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ku>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kelvin-atomic-mass-unit-relationship

Kelvin-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ku>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kelvin-electron-volt-relationship

Kelvin-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Rkev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kelvin-electron-volt-relationship

Kelvin-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kelvin-electron-volt-relationship

Kelvin-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kelvin-hartree-relationship

Kelvin-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khr>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kelvin-hartree-relationship

Kelvin-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khr>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kelvin-hartree-relationship

Kelvin-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khr>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kelvin-hertz-relationship

Kelvin-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kelvin-hertz-relationship

Kelvin-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khz>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kelvin-hertz-relationship

Kelvin-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khz>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kelvin-inverse-meter-relationship

Kelvin-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kminv>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kelvin-inverse-meter-relationship

Kelvin-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kminv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kelvin-inverse-meter-relationship

Kelvin-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kminv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kelvin-joule-relationship

Kelvin-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kelvin-joule-relationship

Kelvin-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kelvin-joule-relationship

Kelvin-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kelvin-kilogram-relationship

Kelvin-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kkg>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kelvin-kilogram-relationship

Kelvin-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kkg>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kelvin-kilogram-relationship

Kelvin-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kkg>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kilogram-atomic-mass-unit-relationship

Kilogram-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kilogram-atomic-mass-unit-relationship

Kilogram-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kilogram-atomic-mass-unit-relationship

Kilogram-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kilogram-electron-volt-relationship

Kilogram-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kilogram-electron-volt-relationship

Kilogram-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kilogram-electron-volt-relationship

Kilogram-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kilogram-hartree-relationship

Kilogram-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghr>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kilogram-hartree-relationship

Kilogram-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghr>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kilogram-hartree-relationship

Kilogram-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghr>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kilogram-hertz-relationship

Kilogram-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kilogram-hertz-relationship

Kilogram-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghz>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kilogram-hertz-relationship

Kilogram-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghz>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kilogram-inverse-meter-relationship

Kilogram-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgminv>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kilogram-inverse-meter-relationship

Kilogram-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgminv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kilogram-inverse-meter-relationship

Kilogram-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgminv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kilogram-joule-relationship

Kilogram-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgj>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kilogram-joule-relationship

Kilogram-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgj>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kilogram-joule-relationship

Kilogram-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgj>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: kilogram-kelvin-relationship

Kilogram-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgk>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: kilogram-kelvin-relationship

Kilogram-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgk>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: kilogram-kelvin-relationship

Kilogram-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgk>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: lattice-parameter-of-silicon

Lattice parameter of silicon.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?asil>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: lattice-parameter-of-silicon

Lattice parameter of silicon.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?asil>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: lattice-parameter-of-silicon

Lattice parameter of silicon.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?asil>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: lattice-spacing-of-ideal-silicon-at-220

Lattice spacing of ideal silicon (220).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?d220sil>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: loschmidt-constant-at-273.15k-and-100000pa

Loschmidt constant (273.15 K, 100000 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: loschmidt-constant-at-273.15k-and-100000pa

Loschmidt constant (273.15 K, 100000 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: loschmidt-constant-at-273.15k-and-100000pa

Loschmidt constant (273.15 K, 100000 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: loschmidt-constant-at-273.15k-and-101325pa

Loschmidt constant (273.15 K, 101325 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0std>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: loschmidt-constant-at-273.15k-and-101325pa

Loschmidt constant (273.15 K, 101325 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0std>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: loschmidt-constant-at-273.15k-and-101325pa

Loschmidt constant (273.15 K, 101325 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0std>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: luminous-efficacy

Luminous efficacy.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kcd>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: magnetic-constant

Magnetic constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu0>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: magnetic-constant

Magnetic constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu0>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: magnetic-flux-quantum

Magnetic flux quantum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?flxquhs2e>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: magnetic-flux-quantum

Magnetic flux quantum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?flxquhs2e>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: magnetic-flux-quantum

Magnetic flux quantum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?flxquhs2e>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: mo-x-unit

Mo x unit.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xumokalph1>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: mo-x-unit

Mo x unit.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xumokalph1>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: molar-gas-constant

Molar gas constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?r>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: molar-gas-constant

Molar gas constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?r>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: molar-gas-constant

Molar gas constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?r>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: molar-mass-constant

Molar mass constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: molar-mass-constant

Molar mass constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: molar-mass-constant

Molar mass constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: molar-mass-of-carbon-12

Molar mass of carbon-12.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mm12c>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: molar-mass-of-carbon-12

Molar mass of carbon-12.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mm12c>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: molar-mass-of-carbon-12

Molar mass of carbon-12.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mm12c>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: molar-planck-constant

Molar Planck constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nah>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: molar-planck-constant

Molar Planck constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nah>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: molar-planck-constant

Molar Planck constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nah>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: molar-planck-constant-times-c

Molar Planck constant times c.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nahc>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: molar-planck-constant-times-c

Molar Planck constant times c.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nahc>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: molar-volume-of-ideal-gas-at-273.15k-and-100000pa

Molar volume of ideal gas (273.15 K, 100000 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvol>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: molar-volume-of-ideal-gas-at-273.15k-and-100000pa

Molar volume of ideal gas (273.15 K, 100000 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvol>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: molar-volume-of-ideal-gas-at-273.15k-and-100000pa

Molar volume of ideal gas (273.15 K, 100000 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvol>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: molar-volume-of-ideal-gas-at-273.15k-and-101325pa

Molar volume of ideal gas (273.15 K, 101325 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolstd>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: molar-volume-of-ideal-gas-at-273.15k-and-101325pa

Molar volume of ideal gas (273.15 K, 101325 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolstd>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: molar-volume-of-ideal-gas-at-273.15k-and-101325pa

Molar volume of ideal gas (273.15 K, 101325 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolstd>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: molar-volume-of-silicon

Molar volume of silicon.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolsil>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: molar-volume-of-silicon

Molar volume of silicon.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolsil>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: molar-volume-of-silicon

Molar volume of silicon.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolsil>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: molybdenum-x-unit

Molybdenum x unit.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xumokalph1>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-compton-wavelength

Muon Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwl>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-compton-wavelength

Muon Compton wavelength.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwl>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-compton-wavelength

Muon Compton wavelength.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwl>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-compton-wavelength-over-2-pi

Muon Compton wavelength over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwlbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-compton-wavelength-over-2-pi

Muon Compton wavelength over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwlbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-electron-mass-ratio

Muon-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-electron-mass-ratio

Muon-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-electron-mass-ratio

Muon-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-g-factor

Muon g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gmum>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-g-factor

Muon g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gmum>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-g-factor

Muon g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gmum>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-magnetic-moment

Muon magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumum>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-magnetic-moment

Muon magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumum>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-magnetic-moment

Muon magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumum>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-magnetic-moment-anomaly

Muon magnetic moment anomaly.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?amu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-magnetic-moment-anomaly

Muon magnetic moment anomaly.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?amu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-magnetic-moment-anomaly

Muon magnetic moment anomaly.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?amu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-magnetic-moment-to-bohr-magneton-ratio

Muon magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmub>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-magnetic-moment-to-bohr-magneton-ratio

Muon magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmub>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-magnetic-moment-to-bohr-magneton-ratio

Muon magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmub>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-magnetic-moment-to-nuclear-magneton-ratio

Muon magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmun>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-magnetic-moment-to-nuclear-magneton-ratio

Muon magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmun>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-magnetic-moment-to-nuclear-magneton-ratio

Muon magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmun>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-mass

Muon mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-mass

Muon mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-mass

Muon mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-mass-energy-equivalent

Muon mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-mass-energy-equivalent

Muon mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-mass-energy-equivalent

Muon mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-mass-energy-equivalent-in-mev

Muon mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-mass-energy-equivalent-in-mev

Muon mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-mass-energy-equivalent-in-mev

Muon mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-mass-in-u

Muon mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-mass-in-u

Muon mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-mass-in-u

Muon mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-molar-mass

Muon molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmmu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-molar-mass

Muon molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmmu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-molar-mass

Muon molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmmu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-neutron-mass-ratio

Muon-neutron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-neutron-mass-ratio

Muon-neutron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-neutron-mass-ratio

Muon-neutron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-proton-magnetic-moment-ratio

Muon-proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmup>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-proton-magnetic-moment-ratio

Muon-proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmup>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-proton-magnetic-moment-ratio

Muon-proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmup>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-proton-mass-ratio

Muon-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-proton-mass-ratio

Muon-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-proton-mass-ratio

Muon-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: muon-tau-mass-ratio

Muon-tau mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmtau>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: muon-tau-mass-ratio

Muon-tau mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmtau>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: muon-tau-mass-ratio

Muon-tau mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmtau>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: natural-unit-of-action

Natural unit of action.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nhbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: natural-unit-of-action

Natural unit of action.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: natural-unit-of-action

Natural unit of action.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: natural-unit-of-action-in-ev-s

Natural unit of action in eV s.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nhbarev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: natural-unit-of-action-in-ev-s

Natural unit of action in eV s.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thbarev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: natural-unit-of-action-in-ev-s

Natural unit of action in eV s.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thbarev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: natural-unit-of-energy

Natural unit of energy.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nmec2>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: natural-unit-of-energy

Natural unit of energy.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tmec2>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: natural-unit-of-energy

Natural unit of energy.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tmec2>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: natural-unit-of-energy-in-mev

Natural unit of energy in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nmec2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: natural-unit-of-energy-in-mev

Natural unit of energy in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tmec2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: natural-unit-of-energy-in-mev

Natural unit of energy in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tmec2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: natural-unit-of-length

Natural unit of length.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Necomwlbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: natural-unit-of-length

Natural unit of length.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tecomwlbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: natural-unit-of-length

Natural unit of length.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tecomwlbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: natural-unit-of-mass

Natural unit of mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: natural-unit-of-mass

Natural unit of mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: natural-unit-of-mass

Natural unit of mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: natural-unit-of-momentum

Natural unit of momentum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: natural-unit-of-momentum

Natural unit of momentum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: natural-unit-of-momentum

Natural unit of momentum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: natural-unit-of-momentum-in-mev/c

Natural unit of momentum in MeV/c.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mecmevsc>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: natural-unit-of-momentum-in-mev/c

Natural unit of momentum in MeV/c.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mecmevsc>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: natural-unit-of-momentum-in-mev/c

Natural unit of momentum in MeV/c.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mecmevsc>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: natural-unit-of-time

Natural unit of time.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nut>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: natural-unit-of-time

Natural unit of time.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nut>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: natural-unit-of-time

Natural unit of time.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nut>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: natural-unit-of-velocity

Natural unit of velocity.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nc>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: natural-unit-of-velocity

Natural unit of velocity.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tc>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: natural-unit-of-velocity

Natural unit of velocity.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tc>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-compton-wavelength

Neutron Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwl>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-compton-wavelength

Neutron Compton wavelength.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwl>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-compton-wavelength

Neutron Compton wavelength.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwl>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-compton-wavelength-over-2-pi

Neutron Compton wavelength over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwlbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-compton-wavelength-over-2-pi

Neutron Compton wavelength over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwlbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-electron-magnetic-moment-ratio

Neutron-electron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmue>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-electron-magnetic-moment-ratio

Neutron-electron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmue>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-electron-magnetic-moment-ratio

Neutron-electron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmue>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-electron-mass-ratio

Neutron-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-electron-mass-ratio

Neutron-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-electron-mass-ratio

Neutron-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-g-factor

Neutron g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gnn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-g-factor

Neutron g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gnn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-g-factor

Neutron g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gnn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-gyromagnetic-ratio

Neutron gyromagnetic ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gamman>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-gyromagnetic-ratio

Neutron gyromagnetic ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gamman>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-gyromagnetic-ratio

Neutron gyromagnetic ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gamman>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-gyromagnetic-ratio-in-mhz/t

Neutron gyromagnetic ratio in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammanbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-gyromagnetic-ratio-over-2-pi

Neutron gyromagnetic ratio over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammanbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-gyromagnetic-ratio-over-2-pi

Neutron gyromagnetic ratio over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammanbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-magnetic-moment

Neutron magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-magnetic-moment

Neutron magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-magnetic-moment

Neutron magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-magnetic-moment-to-bohr-magneton-ratio

Neutron magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmub>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-magnetic-moment-to-bohr-magneton-ratio

Neutron magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmub>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-magnetic-moment-to-bohr-magneton-ratio

Neutron magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmub>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-magnetic-moment-to-nuclear-magneton-ratio

Neutron magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmun>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-magnetic-moment-to-nuclear-magneton-ratio

Neutron magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmun>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-magnetic-moment-to-nuclear-magneton-ratio

Neutron magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmun>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-mass

Neutron mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-mass

Neutron mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-mass

Neutron mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-mass-energy-equivalent

Neutron mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-mass-energy-equivalent

Neutron mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-mass-energy-equivalent

Neutron mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-mass-energy-equivalent-in-mev

Neutron mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-mass-energy-equivalent-in-mev

Neutron mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-mass-energy-equivalent-in-mev

Neutron mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-mass-in-u

Neutron mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-mass-in-u

Neutron mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-mass-in-u

Neutron mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-molar-mass

Neutron molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-molar-mass

Neutron molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-molar-mass

Neutron molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-muon-mass-ratio

Neutron-muon mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmmu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-muon-mass-ratio

Neutron-muon mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmmu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-muon-mass-ratio

Neutron-muon mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmmu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-proton-magnetic-moment-ratio

Neutron-proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmup>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-proton-magnetic-moment-ratio

Neutron-proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmup>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-proton-magnetic-moment-ratio

Neutron-proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmup>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-proton-mass-difference

Neutron-proton mass difference.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-proton-mass-difference

Neutron-proton mass difference.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-proton-mass-difference

Neutron-proton mass difference.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-proton-mass-difference-energy-equivalent

Neutron-proton mass difference energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-proton-mass-difference-energy-equivalent

Neutron-proton mass difference energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-proton-mass-difference-energy-equivalent

Neutron-proton mass difference energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-proton-mass-difference-energy-equivalent-in-mev

Neutron-proton mass difference energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-proton-mass-difference-energy-equivalent-in-mev

Neutron-proton mass difference energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-proton-mass-difference-energy-equivalent-in-mev

Neutron-proton mass difference energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-proton-mass-difference-in-u

Neutron-proton mass difference in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-proton-mass-difference-in-u

Neutron-proton mass difference in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-proton-mass-difference-in-u

Neutron-proton mass difference in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-proton-mass-ratio

Neutron-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-proton-mass-ratio

Neutron-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-proton-mass-ratio

Neutron-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-relative-atomic-mass

Neutron relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?arn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-tau-mass-ratio

Neutron-tau mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmtau>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-tau-mass-ratio

Neutron-tau mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmtau>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-tau-mass-ratio

Neutron-tau mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmtau>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: neutron-to-shielded-proton-magnetic-moment-ratio

Neutron to shielded proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmupp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: neutron-to-shielded-proton-magnetic-moment-ratio

Neutron to shielded proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmupp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: neutron-to-shielded-proton-magnetic-moment-ratio

Neutron to shielded proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmupp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: newtonian-constant-of-gravitation

Newtonian constant of gravitation.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bg>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: newtonian-constant-of-gravitation

Newtonian constant of gravitation.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bg>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: newtonian-constant-of-gravitation

Newtonian constant of gravitation.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bg>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: newtonian-constant-of-gravitation-over-h-bar-c

Newtonian constant of gravitation over h-bar c.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bgspu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: newtonian-constant-of-gravitation-over-h-bar-c

Newtonian constant of gravitation over h-bar c.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bgspu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: newtonian-constant-of-gravitation-over-h-bar-c

Newtonian constant of gravitation over h-bar c.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bgspu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: nuclear-magneton

Nuclear magneton.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mun>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: nuclear-magneton

Nuclear magneton.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mun>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: nuclear-magneton

Nuclear magneton.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mun>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: nuclear-magneton-in-ev/t

Nuclear magneton in eV/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: nuclear-magneton-in-ev/t

Nuclear magneton in eV/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: nuclear-magneton-in-ev/t

Nuclear magneton in eV/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: nuclear-magneton-in-inverse-meter-per-tesla

Nuclear magneton in inverse meter per tesla.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshcminv>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: nuclear-magneton-in-inverse-meters-per-tesla

Nuclear magneton in inverse meters per tesla.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshcminv>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: nuclear-magneton-in-inverse-meters-per-tesla

Nuclear magneton in inverse meters per tesla.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshcminv>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: nuclear-magneton-in-k/t

Nuclear magneton in K/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munskk>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: nuclear-magneton-in-k/t

Nuclear magneton in K/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munskk>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: nuclear-magneton-in-k/t

Nuclear magneton in K/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munskk>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: nuclear-magneton-in-mhz/t

Nuclear magneton in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshhz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: nuclear-magneton-in-mhz/t

Nuclear magneton in MHz/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshhz>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: nuclear-magneton-in-mhz/t

Nuclear magneton in MHz/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshhz>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: planck-constant

Planck constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?h>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: planck-constant

Planck constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?h>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: planck-constant

Planck constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?h>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: planck-constant-in-ev-s

Planck constant in eV s.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: planck-constant-in-ev-s

Planck constant in eV s.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: planck-constant-in-ev/hz

Planck constant in eV/Hz.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: planck-constant-over-2-pi

Planck constant over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: planck-constant-over-2-pi

Planck constant over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: planck-constant-over-2-pi-in-ev-s

Planck constant over 2 pi in eV s.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbarev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: planck-constant-over-2-pi-in-ev-s

Planck constant over 2 pi in eV s.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbarev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: planck-constant-over-2-pi-times-c-in-mev-fm

Planck constant over 2 pi times c in MeV fm.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbcmevf>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: planck-constant-over-2-pi-times-c-in-mev-fm

Planck constant over 2 pi times c in MeV fm.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbcmevf>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: planck-length

Planck length.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkl>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: planck-length

Planck length.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkl>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: planck-length

Planck length.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkl>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: planck-mass

Planck mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkm>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: planck-mass

Planck mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkm>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: planck-mass

Planck mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkm>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: planck-mass-energy-equivalent-in-gev

Planck mass energy equivalent in GeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkmc2gev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: planck-mass-energy-equivalent-in-gev

Planck mass energy equivalent in GeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkmc2gev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: planck-mass-energy-equivalent-in-gev

Planck mass energy equivalent in GeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkmc2gev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: planck-temperature

Planck temperature.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plktmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: planck-temperature

Planck temperature.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plktmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: planck-temperature

Planck temperature.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plktmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: planck-time

Planck time.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkt>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: planck-time

Planck time.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkt>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: planck-time

Planck time.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkt>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-charge-to-mass-quotient

Proton charge to mass quotient.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-charge-to-mass-quotient

Proton charge to mass quotient.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-charge-to-mass-quotient

Proton charge to mass quotient.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-compton-wavelength

Proton Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwl>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-compton-wavelength

Proton Compton wavelength.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwl>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-compton-wavelength

Proton Compton wavelength.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwl>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-compton-wavelength-over-2-pi

Proton Compton wavelength over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwlbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-compton-wavelength-over-2-pi

Proton Compton wavelength over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwlbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-electron-mass-ratio

Proton-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-electron-mass-ratio

Proton-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-electron-mass-ratio

Proton-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-g-factor

Proton g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-g-factor

Proton g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-g-factor

Proton g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-gyromagnetic-ratio

Proton gyromagnetic ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammap>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-gyromagnetic-ratio

Proton gyromagnetic ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammap>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-gyromagnetic-ratio

Proton gyromagnetic ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammap>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-gyromagnetic-ratio-in-mhz/t

Proton gyromagnetic ratio in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-gyromagnetic-ratio-over-2-pi

Proton gyromagnetic ratio over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-gyromagnetic-ratio-over-2-pi

Proton gyromagnetic ratio over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-magnetic-moment

Proton magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mup>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-magnetic-moment

Proton magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mup>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-magnetic-moment

Proton magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mup>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-magnetic-moment-to-bohr-magneton-ratio

Proton magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmub>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-magnetic-moment-to-bohr-magneton-ratio

Proton magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmub>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-magnetic-moment-to-bohr-magneton-ratio

Proton magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmub>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-magnetic-moment-to-nuclear-magneton-ratio

Proton magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmun>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-magnetic-moment-to-nuclear-magneton-ratio

Proton magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmun>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-magnetic-moment-to-nuclear-magneton-ratio

Proton magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmun>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-magnetic-shielding-correction

Proton magnetic shielding correction.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmapp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-magnetic-shielding-correction

Proton magnetic shielding correction.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmapp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-magnetic-shielding-correction

Proton magnetic shielding correction.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmapp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-mass

Proton mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-mass

Proton mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-mass

Proton mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-mass-energy-equivalent

Proton mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-mass-energy-equivalent

Proton mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-mass-energy-equivalent

Proton mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-mass-energy-equivalent-in-mev

Proton mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-mass-energy-equivalent-in-mev

Proton mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-mass-energy-equivalent-in-mev

Proton mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-mass-in-u

Proton mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-mass-in-u

Proton mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-mass-in-u

Proton mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-molar-mass

Proton molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-molar-mass

Proton molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-molar-mass

Proton molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-muon-mass-ratio

Proton-muon mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmmu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-muon-mass-ratio

Proton-muon mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmmu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-muon-mass-ratio

Proton-muon mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmmu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-neutron-magnetic-moment-ratio

Proton-neutron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmunn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-neutron-magnetic-moment-ratio

Proton-neutron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmunn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-neutron-magnetic-moment-ratio

Proton-neutron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmunn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-neutron-mass-ratio

Proton-neutron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-neutron-mass-ratio

Proton-neutron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-neutron-mass-ratio

Proton-neutron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-relative-atomic-mass

Proton relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?arp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-rms-charge-radius

Proton rms charge radius.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-rms-charge-radius

Proton rms charge radius.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-rms-charge-radius

Proton rms charge radius.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: proton-tau-mass-ratio

Proton-tau mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmtau>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: proton-tau-mass-ratio

Proton-tau mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmtau>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: proton-tau-mass-ratio

Proton-tau mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmtau>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: quantum-of-circulation

Quantum of circulation.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?qucirchs2me>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: quantum-of-circulation

Quantum of circulation.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?qucirchs2me>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: quantum-of-circulation

Quantum of circulation.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?qucirchs2me>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: quantum-of-circulation-times-2

Quantum of circulation times 2.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hsme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: quantum-of-circulation-times-2

Quantum of circulation times 2.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hsme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: quantum-of-circulation-times-2

Quantum of circulation times 2.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hsme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: reduced-compton-wavelength

Reduced Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwlbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: reduced-muon-compton-wavelength

Reduced muon Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwlbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: reduced-neutron-compton-wavelength

Reduced neutron Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwlbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: reduced-planck-constant

Reduced Planck constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: reduced-planck-constant-in-ev-s

Reduced Planck constant in eV s.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbarev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: reduced-planck-constant-times-c-in-mev-fm

Reduced Planck constant times c in MeV fm.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbcmevf>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: reduced-proton-compton-wavelength

Reduced proton Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwlbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: reduced-tau-compton-wavelength

Reduced tau Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwlbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: rydberg-constant

Rydberg constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ryd>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: rydberg-constant

Rydberg constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ryd>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: rydberg-constant

Rydberg constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ryd>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: rydberg-constant-times-c-in-hz

Rydberg constant times c in Hz.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydchz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: rydberg-constant-times-c-in-hz

Rydberg constant times c in Hz.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydchz>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: rydberg-constant-times-c-in-hz

Rydberg constant times c in Hz.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydchz>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: rydberg-constant-times-hc-in-ev

Rydberg constant times hc in eV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: rydberg-constant-times-hc-in-ev

Rydberg constant times hc in eV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: rydberg-constant-times-hc-in-ev

Rydberg constant times hc in eV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: rydberg-constant-times-hc-in-j

Rydberg constant times hc in J.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcj>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: rydberg-constant-times-hc-in-j

Rydberg constant times hc in J.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcj>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: rydberg-constant-times-hc-in-j

Rydberg constant times hc in J.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcj>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: sackur-tetrode-constant-at-1k-and-100000pa

Sackur-Tetrode constant (1 K, 100000 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0sr>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: sackur-tetrode-constant-at-1k-and-100000pa

Sackur-Tetrode constant (1 K, 100000 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0sr>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: sackur-tetrode-constant-at-1k-and-100000pa

Sackur-Tetrode constant (1 K, 100000 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0sr>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: sackur-tetrode-constant-at-1k-and-101325pa

Sackur-Tetrode constant (1 K, 101325 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0srstd>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: sackur-tetrode-constant-at-1k-and-101325pa

Sackur-Tetrode constant (1 K, 101325 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0srstd>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: sackur-tetrode-constant-at-1k-and-101325pa

Sackur-Tetrode constant (1 K, 101325 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0srstd>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: second-radiation-constant

Second radiation constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c22ndrc>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: second-radiation-constant

Second radiation constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c22ndrc>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: second-radiation-constant

Second radiation constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c22ndrc>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-helion-gyromagnetic-ratio

Shielded helion gyromagnetic ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-helion-gyromagnetic-ratio

Shielded helion gyromagnetic ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-helion-gyromagnetic-ratio

Shielded helion gyromagnetic ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-helion-gyromagnetic-ratio-in-mhz/t

Shielded helion gyromagnetic ratio in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahpbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-helion-gyromagnetic-ratio-over-2-pi

Shielded helion gyromagnetic ratio over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahpbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-helion-gyromagnetic-ratio-over-2-pi

Shielded helion gyromagnetic ratio over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahpbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-helion-magnetic-moment

Shielded helion magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-helion-magnetic-moment

Shielded helion magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-helion-magnetic-moment

Shielded helion magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-helion-magnetic-moment-to-bohr-magneton-ratio

Shielded helion magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmub>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-helion-magnetic-moment-to-bohr-magneton-ratio

Shielded helion magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmub>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-helion-magnetic-moment-to-bohr-magneton-ratio

Shielded helion magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmub>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-helion-magnetic-moment-to-nuclear-magneton-ratio

Shielded helion magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmun>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-helion-magnetic-moment-to-nuclear-magneton-ratio

Shielded helion magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmun>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-helion-magnetic-moment-to-nuclear-magneton-ratio

Shielded helion magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmun>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-helion-to-proton-magnetic-moment-ratio

Shielded helion to proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmup>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-helion-to-proton-magnetic-moment-ratio

Shielded helion to proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmup>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-helion-to-proton-magnetic-moment-ratio

Shielded helion to proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmup>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-helion-to-shielded-proton-magnetic-moment-ratio

Shielded helion to shielded proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmupp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-helion-to-shielded-proton-magnetic-moment-ratio

Shielded helion to shielded proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmupp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-helion-to-shielded-proton-magnetic-moment-ratio

Shielded helion to shielded proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmupp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-proton-gyromagnetic-ratio

Shielded proton gyromagnetic ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-proton-gyromagnetic-ratio

Shielded proton gyromagnetic ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-proton-gyromagnetic-ratio

Shielded proton gyromagnetic ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-proton-gyromagnetic-ratio-in-mhz/t

Shielded proton gyromagnetic ratio in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammappbar>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-proton-gyromagnetic-ratio-over-2-pi

Shielded proton gyromagnetic ratio over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammappbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-proton-gyromagnetic-ratio-over-2-pi

Shielded proton gyromagnetic ratio over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammappbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-proton-magnetic-moment

Shielded proton magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-proton-magnetic-moment

Shielded proton magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-proton-magnetic-moment

Shielded proton magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-proton-magnetic-moment-to-bohr-magneton-ratio

Shielded proton magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmub>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-proton-magnetic-moment-to-bohr-magneton-ratio

Shielded proton magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmub>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-proton-magnetic-moment-to-bohr-magneton-ratio

Shielded proton magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmub>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielded-proton-magnetic-moment-to-nuclear-magneton-ratio

Shielded proton magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmun>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielded-proton-magnetic-moment-to-nuclear-magneton-ratio

Shielded proton magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmun>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: shielded-proton-magnetic-moment-to-nuclear-magneton-ratio

Shielded proton magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmun>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: shielding-difference-of-d-and-p-in-hd

Shielding difference of d and p in HD.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sdp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: shielding-difference-of-t-and-p-in-ht

Shielding difference of t and p in HT.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: speed-of-light-in-vacuum

Speed of light in vacuum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: speed-of-light-in-vacuum

Speed of light in vacuum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: speed-of-light-in-vacuum

Speed of light in vacuum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: standard-acceleration-of-gravity

Standard acceleration of gravity.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: standard-acceleration-of-gravity

Standard acceleration of gravity.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: standard-acceleration-of-gravity

Standard acceleration of gravity.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: standard-atmosphere

Standard atmosphere.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdatm>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: standard-atmosphere

Standard atmosphere.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdatm>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: standard-atmosphere

Standard atmosphere.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdatm>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: standard-state-pressure

Standard-state pressure.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdspr>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: standard-state-pressure

Standard-state pressure.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdspr>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: standard-state-pressure

Standard-state pressure.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdspr>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: stefan-boltzmann-constant

Stefan-Boltzmann constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigma>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: stefan-boltzmann-constant

Stefan-Boltzmann constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigma>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: stefan-boltzmann-constant

Stefan-Boltzmann constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigma>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: tau-compton-wavelength

Tau Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwl>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: tau-compton-wavelength

Tau Compton wavelength.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwl>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: tau-compton-wavelength

Tau Compton wavelength.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwl>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: tau-compton-wavelength-over-2-pi

Tau Compton wavelength over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwlbar>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: tau-compton-wavelength-over-2-pi

Tau Compton wavelength over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwlbar>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: tau-electron-mass-ratio

Tau-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: tau-electron-mass-ratio

Tau-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: tau-electron-mass-ratio

Tau-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: tau-energy-equivalent

Tau energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: tau-mass

Tau mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtau>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: tau-mass

Tau mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtau>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: tau-mass

Tau mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtau>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: tau-mass-energy-equivalent

Tau mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: tau-mass-energy-equivalent

Tau mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: tau-mass-energy-equivalent

Tau mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: tau-mass-energy-equivalent-in-mev

Tau mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: tau-mass-energy-equivalent-in-mev

Tau mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: tau-mass-in-u

Tau mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: tau-mass-in-u

Tau mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: tau-mass-in-u

Tau mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: tau-molar-mass

Tau molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmtau>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: tau-molar-mass

Tau molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmtau>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: tau-molar-mass

Tau molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmtau>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: tau-muon-mass-ratio

Tau-muon mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmmu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: tau-muon-mass-ratio

Tau-muon mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmmu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: tau-muon-mass-ratio

Tau-muon mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmmu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: tau-neutron-mass-ratio

Tau-neutron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: tau-neutron-mass-ratio

Tau-neutron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: tau-neutron-mass-ratio

Tau-neutron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: tau-proton-mass-ratio

Tau-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: tau-proton-mass-ratio

Tau-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: tau-proton-mass-ratio

Tau-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: thomson-cross-section

Thomson cross section.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmae>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: thomson-cross-section

Thomson cross section.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmae>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: thomson-cross-section

Thomson cross section.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmae>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-electron-mass-ratio

Triton-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsme>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-electron-mass-ratio

Triton-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsme>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: triton-electron-mass-ratio

Triton-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsme>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-g-factor

Triton g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gtn>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-g-factor

Triton g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gtn>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: triton-g-factor

Triton g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gtn>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-magnetic-moment

Triton magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mut>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-magnetic-moment

Triton magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mut>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: triton-magnetic-moment

Triton magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mut>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-magnetic-moment-to-bohr-magneton-ratio

Triton magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmub>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-magnetic-moment-to-bohr-magneton-ratio

Triton magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmub>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: triton-magnetic-moment-to-bohr-magneton-ratio

Triton magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmub>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-magnetic-moment-to-nuclear-magneton-ratio

Triton magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmun>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-magnetic-moment-to-nuclear-magneton-ratio

Triton magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmun>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: triton-magnetic-moment-to-nuclear-magneton-ratio

Triton magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmun>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-mass

Triton mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mt>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-mass

Triton mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mt>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: triton-mass

Triton mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mt>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-mass-energy-equivalent

Triton mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-mass-energy-equivalent

Triton mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: triton-mass-energy-equivalent

Triton mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-mass-energy-equivalent-in-mev

Triton mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2mev>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-mass-energy-equivalent-in-mev

Triton mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2mev>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: triton-mass-energy-equivalent-in-mev

Triton mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2mev>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-mass-in-u

Triton mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtu>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-mass-in-u

Triton mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtu>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: triton-mass-in-u

Triton mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtu>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-molar-mass

Triton molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmt>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-molar-mass

Triton molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmt>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: triton-molar-mass

Triton molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmt>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-proton-mass-ratio

Triton-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsmp>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-proton-mass-ratio

Triton-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsmp>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: triton-proton-mass-ratio

Triton-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsmp>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: triton-relative-atomic-mass

Triton relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?art>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: triton-to-proton-magnetic-moment-ratio

Triton to proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmup>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: unified-atomic-mass-unit

Unified atomic mass unit.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ukg>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: unified-atomic-mass-unit

Unified atomic mass unit.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tukg>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: unified-atomic-mass-unit

Unified atomic mass unit.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tukg>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: vacuum-electric-permittivity

Vacuum electric permittivity.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ep0>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: vacuum-magnetic-permeability

Vacuum magnetic permeability.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu0>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: von-klitzing-constant

Von Klitzing constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: von-klitzing-constant

Von Klitzing constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: von-klitzing-constant

Von Klitzing constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: w-to-z-mass-ratio

W to Z mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rmwmz>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: weak-mixing-angle

Weak mixing angle.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sin2th>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: weak-mixing-angle

Weak mixing angle.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sin2th>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: weak-mixing-angle

Weak mixing angle.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sin2th>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: wien-frequency-displacement-law-constant

Wien frequency displacement law constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bpwien>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: wien-frequency-displacement-law-constant

Wien frequency displacement law constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bpwien>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: wien-frequency-displacement-law-constant

Wien frequency displacement law constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bpwien>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Constant: wien-wavelength-displacement-law-constant

Wien wavelength displacement law constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bwien>.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Constant: wien-wavelength-displacement-law-constant

Wien wavelength displacement law constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bwien>.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Constant: wien-wavelength-displacement-law-constant

Wien wavelength displacement law constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bwien>.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.


5.1.2 Special variables

Special Variable: *string-value*

Cache for string representations.

Package

codata-recommended-values-common.

Source

codata-common.lisp.


5.1.3 Symbol macros

Symbol Macro: 220-lattice-spacing-of-silicon
Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Symbol Macro: bohr-magneton-in-inverse-meters-per-tesla
Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Symbol Macro: boltzmann-constant-in-inverse-meters-per-kelvin
Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Symbol Macro: cu-x-unit
Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Symbol Macro: electric-constant
Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Symbol Macro: magnetic-constant
Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Symbol Macro: mo-x-unit
Package

codata-recommended-values-2018.

Source

codata-2018.lisp.


5.1.4 Macros

Macro: defconst (name value &optional doc)

Define a constant variable.

This is like ‘defconstant’ except that the initially set value is reused when the ‘defconst’ form is evaluated again.

Package

codata-recommended-values-common.

Source

codata-common.lisp.

Macro: define-constant (name (value abs-tol rel-tol) &optional doc)

Define a physical constant.

Package

codata-recommended-values-common.

Source

codata-common.lisp.

Macro: defsubst (name arg-list &body body)

Define an inline function.

This is like ‘defun’ except that the function is globally marked for inline expansion by the compiler.

Package

codata-recommended-values-common.

Source

codata-common.lisp.


5.1.5 Ordinary functions

Function: 220-lattice-spacing-of-silicon ()

{220} lattice spacing of silicon.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?d220sil>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: 220-lattice-spacing-of-silicon ()

{220} lattice spacing of silicon.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?d220sil>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: alpha-particle-electron-mass-ratio ()

Alpha particle-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: alpha-particle-electron-mass-ratio ()

Alpha particle-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: alpha-particle-electron-mass-ratio ()

Alpha particle-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: alpha-particle-mass ()

Alpha particle mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mal>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: alpha-particle-mass ()

Alpha particle mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mal>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: alpha-particle-mass ()

Alpha particle mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mal>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: alpha-particle-mass-energy-equivalent ()

Alpha particle mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: alpha-particle-mass-energy-equivalent ()

Alpha particle mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: alpha-particle-mass-energy-equivalent ()

Alpha particle mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: alpha-particle-mass-energy-equivalent-in-mev ()

Alpha particle mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: alpha-particle-mass-energy-equivalent-in-mev ()

Alpha particle mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: alpha-particle-mass-energy-equivalent-in-mev ()

Alpha particle mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: alpha-particle-mass-in-u ()

Alpha particle mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: alpha-particle-mass-in-u ()

Alpha particle mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: alpha-particle-mass-in-u ()

Alpha particle mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: alpha-particle-molar-mass ()

Alpha particle molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmal>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: alpha-particle-molar-mass ()

Alpha particle molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmal>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: alpha-particle-molar-mass ()

Alpha particle molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmal>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: alpha-particle-proton-mass-ratio ()

Alpha particle-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: alpha-particle-proton-mass-ratio ()

Alpha particle-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: alpha-particle-proton-mass-ratio ()

Alpha particle-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?malsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: alpha-particle-relative-atomic-mass ()

Alpha particle relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aral>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: angstrom-star ()

Angstrom star.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?angstar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: angstrom-star ()

Angstrom star.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?angstar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: angstrom-star ()

Angstrom star.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?angstar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-mass-constant ()

Atomic mass constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?u>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-mass-constant ()

Atomic mass constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?u>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-mass-constant ()

Atomic mass constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?u>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-mass-constant-energy-equivalent ()

Atomic mass constant energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-mass-constant-energy-equivalent ()

Atomic mass constant energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tuj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-mass-constant-energy-equivalent ()

Atomic mass constant energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tuj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-mass-constant-energy-equivalent-in-mev ()

Atomic mass constant energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-mass-constant-energy-equivalent-in-mev ()

Atomic mass constant energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-mass-constant-energy-equivalent-in-mev ()

Atomic mass constant energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-mass-unit-electron-volt-relationship ()

Atomic mass unit-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-mass-unit-electron-volt-relationship ()

Atomic mass unit-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-mass-unit-electron-volt-relationship ()

Atomic mass unit-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-mass-unit-hartree-relationship ()

Atomic mass unit-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-mass-unit-hartree-relationship ()

Atomic mass unit-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-mass-unit-hartree-relationship ()

Atomic mass unit-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-mass-unit-hertz-relationship ()

Atomic mass unit-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-mass-unit-hertz-relationship ()

Atomic mass unit-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-mass-unit-hertz-relationship ()

Atomic mass unit-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-mass-unit-inverse-meter-relationship ()

Atomic mass unit-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-mass-unit-inverse-meter-relationship ()

Atomic mass unit-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-mass-unit-inverse-meter-relationship ()

Atomic mass unit-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-mass-unit-joule-relationship ()

Atomic mass unit-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Ruj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-mass-unit-joule-relationship ()

Atomic mass unit-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-mass-unit-joule-relationship ()

Atomic mass unit-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-mass-unit-kelvin-relationship ()

Atomic mass unit-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-mass-unit-kelvin-relationship ()

Atomic mass unit-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-mass-unit-kelvin-relationship ()

Atomic mass unit-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?uk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-mass-unit-kilogram-relationship ()

Atomic mass unit-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Rukg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-mass-unit-kilogram-relationship ()

Atomic mass unit-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ukg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-mass-unit-kilogram-relationship ()

Atomic mass unit-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ukg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-action ()

Atomic unit of action.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Ahbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-action ()

Atomic unit of action.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tthbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-action ()

Atomic unit of action.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tthbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-charge ()

Atomic unit of charge.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Ae>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-charge ()

Atomic unit of charge.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?te>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-charge ()

Atomic unit of charge.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?te>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-charge-density ()

Atomic unit of charge density.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-charge-density ()

Atomic unit of charge density.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-charge-density ()

Atomic unit of charge density.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-current ()

Atomic unit of current.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucur>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-current ()

Atomic unit of current.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucur>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-current ()

Atomic unit of current.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aucur>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-electric-dipole-moment ()

Atomic unit of electric dipole moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auedm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-electric-dipole-moment ()

Atomic unit of electric dipole moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auedm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-electric-dipole-moment ()

Atomic unit of electric dipole moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auedm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-electric-field ()

Atomic unit of electric field.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefld>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-electric-field ()

Atomic unit of electric field.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefld>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-electric-field ()

Atomic unit of electric field.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefld>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-electric-field-gradient ()

Atomic unit of electric field gradient.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-electric-field-gradient ()

Atomic unit of electric field gradient.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-electric-field-gradient ()

Atomic unit of electric field gradient.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auefg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-electric-polarizability ()

Atomic unit of electric polarizability.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auepol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-electric-polarizability ()

Atomic unit of electric polarizability.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auepol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-electric-polarizability ()

Atomic unit of electric polarizability.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auepol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-electric-potential ()

Atomic unit of electric potential.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auep>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-electric-potential ()

Atomic unit of electric potential.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auep>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-electric-potential ()

Atomic unit of electric potential.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auep>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-electric-quadrupole-moment ()

Atomic unit of electric quadrupole moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aueqm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-electric-quadrupole-moment ()

Atomic unit of electric quadrupole moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aueqm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-electric-quadrupole-moment ()

Atomic unit of electric quadrupole moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aueqm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-energy ()

Atomic unit of energy.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Ahr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-energy ()

Atomic unit of energy.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-energy ()

Atomic unit of energy.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-first-hyperpolarizability ()

Atomic unit of first hyperpolarizability.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auhypol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-first-hyperpolarizability ()

Atomic unit of first hyperpolarizability.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auhypol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-first-hyperpolarizability ()

Atomic unit of first hyperpolarizability.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auhypol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-force ()

Atomic unit of force.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auforce>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-force ()

Atomic unit of force.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auforce>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-force ()

Atomic unit of force.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auforce>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-length ()

Atomic unit of length.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Abohrrada0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-length ()

Atomic unit of length.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tbohrrada0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-length ()

Atomic unit of length.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tbohrrada0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-magnetic-dipole-moment ()

Atomic unit of magnetic dipole moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumdm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-magnetic-dipole-moment ()

Atomic unit of magnetic dipole moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumdm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-magnetic-dipole-moment ()

Atomic unit of magnetic dipole moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumdm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-magnetic-flux-density ()

Atomic unit of magnetic flux density.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumfd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-magnetic-flux-density ()

Atomic unit of magnetic flux density.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumfd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-magnetic-flux-density ()

Atomic unit of magnetic flux density.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumfd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-magnetizability ()

Atomic unit of magnetizability.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumag>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-magnetizability ()

Atomic unit of magnetizability.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumag>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-magnetizability ()

Atomic unit of magnetizability.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumag>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-mass ()

Atomic unit of mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Ame>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-mass ()

Atomic unit of mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ttme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-mass ()

Atomic unit of mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ttme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-momentum ()

Atomic unit of momentum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumom>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-momentum ()

Atomic unit of momentum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumom>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-momentum ()

Atomic unit of momentum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aumom>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-permittivity ()

Atomic unit of permittivity.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auperm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-permittivity ()

Atomic unit of permittivity.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auperm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-permittivity ()

Atomic unit of permittivity.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auperm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-second-hyperpolarizability ()

Atomic unit of second hyperpolarizability.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?au2hypol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-second-hyperpolarizability ()

Atomic unit of second hyperpolarizability.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?au2hypol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-second-hyperpolarizability ()

Atomic unit of second hyperpolarizability.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?au2hypol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-time ()

Atomic unit of time.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aut>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-time ()

Atomic unit of time.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aut>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-time ()

Atomic unit of time.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?aut>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: atomic-unit-of-velocity ()

Atomic unit of velocity.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auvel>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: atomic-unit-of-velocity ()

Atomic unit of velocity.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auvel>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: atomic-unit-of-velocity ()

Atomic unit of velocity.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?auvel>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: avogadro-constant ()

Avogadro constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?na>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: avogadro-constant ()

Avogadro constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?na>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: avogadro-constant ()

Avogadro constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?na>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: bohr-magneton ()

Bohr magneton.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: bohr-magneton ()

Bohr magneton.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: bohr-magneton ()

Bohr magneton.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: bohr-magneton-in-ev/t ()

Bohr magneton in eV/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: bohr-magneton-in-ev/t ()

Bohr magneton in eV/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: bohr-magneton-in-ev/t ()

Bohr magneton in eV/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: bohr-magneton-in-hz/t ()

Bohr magneton in Hz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: bohr-magneton-in-hz/t ()

Bohr magneton in Hz/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: bohr-magneton-in-hz/t ()

Bohr magneton in Hz/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: bohr-magneton-in-inverse-meter-per-tesla ()

Bohr magneton in inverse meter per tesla.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshcminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: bohr-magneton-in-inverse-meters-per-tesla ()

Bohr magneton in inverse meters per tesla.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshcminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: bohr-magneton-in-inverse-meters-per-tesla ()

Bohr magneton in inverse meters per tesla.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubshcminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: bohr-magneton-in-k/t ()

Bohr magneton in K/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubskk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: bohr-magneton-in-k/t ()

Bohr magneton in K/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubskk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: bohr-magneton-in-k/t ()

Bohr magneton in K/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mubskk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: bohr-radius ()

Bohr radius.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bohrrada0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: bohr-radius ()

Bohr radius.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bohrrada0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: bohr-radius ()

Bohr radius.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bohrrada0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: boltzmann-constant ()

Boltzmann constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?k>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: boltzmann-constant ()

Boltzmann constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?k>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: boltzmann-constant ()

Boltzmann constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?k>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: boltzmann-constant-in-ev/k ()

Boltzmann constant in eV/K.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: boltzmann-constant-in-ev/k ()

Boltzmann constant in eV/K.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tkev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: boltzmann-constant-in-ev/k ()

Boltzmann constant in eV/K.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tkev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: boltzmann-constant-in-hz/k ()

Boltzmann constant in Hz/K.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: boltzmann-constant-in-hz/k ()

Boltzmann constant in Hz/K.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: boltzmann-constant-in-hz/k ()

Boltzmann constant in Hz/K.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: boltzmann-constant-in-inverse-meter-per-kelvin ()

Boltzmann constant in inverse meter per kelvin.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshcminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: boltzmann-constant-in-inverse-meters-per-kelvin ()

Boltzmann constant in inverse meters per kelvin.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshcminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: boltzmann-constant-in-inverse-meters-per-kelvin ()

Boltzmann constant in inverse meters per kelvin.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kshcminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: characteristic-impedance-of-vacuum ()

Characteristic impedance of vacuum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?z0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: characteristic-impedance-of-vacuum ()

Characteristic impedance of vacuum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?z0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: characteristic-impedance-of-vacuum ()

Characteristic impedance of vacuum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?z0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: classical-electron-radius ()

Classical electron radius.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?re>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: classical-electron-radius ()

Classical electron radius.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?re>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: classical-electron-radius ()

Classical electron radius.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?re>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: compton-wavelength ()

Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: compton-wavelength ()

Compton wavelength.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: compton-wavelength ()

Compton wavelength.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: compton-wavelength-over-2-pi ()

Compton wavelength over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: compton-wavelength-over-2-pi ()

Compton wavelength over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: conductance-quantum ()

Conductance quantum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?conqu2e2sh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: conductance-quantum ()

Conductance quantum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?conqu2e2sh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: conductance-quantum ()

Conductance quantum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?conqu2e2sh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: conventional-value-of-ampere-90 ()

Conventional value of ampere-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ampere90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: conventional-value-of-coulomb-90 ()

Conventional value of coulomb-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?charge90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: conventional-value-of-farad-90 ()

Conventional value of farad-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?capacitance90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: conventional-value-of-henry-90 ()

Conventional value of henry-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?inductance90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: conventional-value-of-josephson-constant ()

Conventional value of Josephson constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: conventional-value-of-josephson-constant ()

Conventional value of Josephson constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: conventional-value-of-josephson-constant ()

Conventional value of Josephson constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: conventional-value-of-ohm-90 ()

Conventional value of ohm-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ohm90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: conventional-value-of-volt-90 ()

Conventional value of volt-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?volt90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: conventional-value-of-von-klitzing-constant ()

Conventional value of von Klitzing constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: conventional-value-of-von-klitzing-constant ()

Conventional value of von Klitzing constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: conventional-value-of-von-klitzing-constant ()

Conventional value of von Klitzing constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: conventional-value-of-watt-90 ()

Conventional value of watt-90.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?power90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: copper-x-unit ()

Copper x unit.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xucukalph1>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: cu-x-unit ()

Cu x unit.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xucukalph1>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: cu-x-unit ()

Cu x unit.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xucukalph1>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-electron-magnetic-moment-ratio ()

Deuteron-electron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmuem>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-electron-magnetic-moment-ratio ()

Deuteron-electron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmuem>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-electron-magnetic-moment-ratio ()

Deuteron-electron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmuem>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-electron-mass-ratio ()

Deuteron-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-electron-mass-ratio ()

Deuteron-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-electron-mass-ratio ()

Deuteron-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-g-factor ()

Deuteron g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gdn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-g-factor ()

Deuteron g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gdn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-g-factor ()

Deuteron g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gdn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-magnetic-moment ()

Deuteron magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mud>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-magnetic-moment ()

Deuteron magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mud>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-magnetic-moment ()

Deuteron magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mud>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-magnetic-moment-to-bohr-magneton-ratio ()

Deuteron magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-magnetic-moment-to-bohr-magneton-ratio ()

Deuteron magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-magnetic-moment-to-bohr-magneton-ratio ()

Deuteron magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-magnetic-moment-to-nuclear-magneton-ratio ()

Deuteron magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-magnetic-moment-to-nuclear-magneton-ratio ()

Deuteron magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-magnetic-moment-to-nuclear-magneton-ratio ()

Deuteron magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-mass ()

Deuteron mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?md>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-mass ()

Deuteron mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?md>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-mass ()

Deuteron mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?md>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-mass-energy-equivalent ()

Deuteron mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-mass-energy-equivalent ()

Deuteron mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-mass-energy-equivalent ()

Deuteron mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-mass-energy-equivalent-in-mev ()

Deuteron mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-mass-energy-equivalent-in-mev ()

Deuteron mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-mass-energy-equivalent-in-mev ()

Deuteron mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-mass-in-u ()

Deuteron mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-mass-in-u ()

Deuteron mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-mass-in-u ()

Deuteron mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-molar-mass ()

Deuteron molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-molar-mass ()

Deuteron molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-molar-mass ()

Deuteron molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-neutron-magnetic-moment-ratio ()

Deuteron-neutron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmunn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-neutron-magnetic-moment-ratio ()

Deuteron-neutron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmunn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-neutron-magnetic-moment-ratio ()

Deuteron-neutron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmunn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-proton-magnetic-moment-ratio ()

Deuteron-proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-proton-magnetic-moment-ratio ()

Deuteron-proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-proton-magnetic-moment-ratio ()

Deuteron-proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mudsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-proton-mass-ratio ()

Deuteron-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-proton-mass-ratio ()

Deuteron-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-proton-mass-ratio ()

Deuteron-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mdsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: deuteron-relative-atomic-mass ()

Deuteron relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ard>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-rms-charge-radius ()

Deuteron rms charge radius.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: deuteron-rms-charge-radius ()

Deuteron rms charge radius.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: deuteron-rms-charge-radius ()

Deuteron rms charge radius.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electric-constant ()

Electric constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ep0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electric-constant ()

Electric constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ep0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-charge-to-mass-quotient ()

Electron charge to mass quotient.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-charge-to-mass-quotient ()

Electron charge to mass quotient.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-charge-to-mass-quotient ()

Electron charge to mass quotient.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-deuteron-magnetic-moment-ratio ()

Electron-deuteron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmud>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-deuteron-magnetic-moment-ratio ()

Electron-deuteron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmud>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-deuteron-magnetic-moment-ratio ()

Electron-deuteron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmud>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-deuteron-mass-ratio ()

Electron-deuteron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-deuteron-mass-ratio ()

Electron-deuteron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-deuteron-mass-ratio ()

Electron-deuteron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-g-factor ()

Electron g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gem>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-g-factor ()

Electron g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gem>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-g-factor ()

Electron g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gem>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-gyromagnetic-ratio ()

Electron gyromagnetic ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammae>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-gyromagnetic-ratio ()

Electron gyromagnetic ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammae>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-gyromagnetic-ratio ()

Electron gyromagnetic ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammae>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-gyromagnetic-ratio-in-mhz/t ()

Electron gyromagnetic ratio in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammaebar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-gyromagnetic-ratio-over-2-pi ()

Electron gyromagnetic ratio over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammaebar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-gyromagnetic-ratio-over-2-pi ()

Electron gyromagnetic ratio over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammaebar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-helion-mass-ratio ()

Electron-helion mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-helion-mass-ratio ()

Electron-helion mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-helion-mass-ratio ()

Electron-helion mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-magnetic-moment ()

Electron magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muem>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-magnetic-moment ()

Electron magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muem>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-magnetic-moment ()

Electron magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muem>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-magnetic-moment-anomaly ()

Electron magnetic moment anomaly.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ae>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-magnetic-moment-anomaly ()

Electron magnetic moment anomaly.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ae>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-magnetic-moment-anomaly ()

Electron magnetic moment anomaly.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ae>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-magnetic-moment-to-bohr-magneton-ratio ()

Electron magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-magnetic-moment-to-bohr-magneton-ratio ()

Electron magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-magnetic-moment-to-bohr-magneton-ratio ()

Electron magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-magnetic-moment-to-nuclear-magneton-ratio ()

Electron magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-magnetic-moment-to-nuclear-magneton-ratio ()

Electron magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-magnetic-moment-to-nuclear-magneton-ratio ()

Electron magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-mass ()

Electron mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?me>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-mass ()

Electron mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?me>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-mass ()

Electron mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?me>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-mass-energy-equivalent ()

Electron mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-mass-energy-equivalent ()

Electron mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-mass-energy-equivalent ()

Electron mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-mass-energy-equivalent-in-mev ()

Electron mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-mass-energy-equivalent-in-mev ()

Electron mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-mass-energy-equivalent-in-mev ()

Electron mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-mass-in-u ()

Electron mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?meu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-mass-in-u ()

Electron mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?meu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-mass-in-u ()

Electron mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?meu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-molar-mass ()

Electron molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-molar-mass ()

Electron molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-molar-mass ()

Electron molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-muon-magnetic-moment-ratio ()

Electron-muon magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmumum>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-muon-magnetic-moment-ratio ()

Electron-muon magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmumum>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-muon-magnetic-moment-ratio ()

Electron-muon magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmumum>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-muon-mass-ratio ()

Electron-muon mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-muon-mass-ratio ()

Electron-muon mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-muon-mass-ratio ()

Electron-muon mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-neutron-magnetic-moment-ratio ()

Electron-neutron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmunn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-neutron-magnetic-moment-ratio ()

Electron-neutron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmunn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-neutron-magnetic-moment-ratio ()

Electron-neutron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmunn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-neutron-mass-ratio ()

Electron-neutron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-neutron-mass-ratio ()

Electron-neutron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-neutron-mass-ratio ()

Electron-neutron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-proton-magnetic-moment-ratio ()

Electron-proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-proton-magnetic-moment-ratio ()

Electron-proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-proton-magnetic-moment-ratio ()

Electron-proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-proton-mass-ratio ()

Electron-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-proton-mass-ratio ()

Electron-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-proton-mass-ratio ()

Electron-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-relative-atomic-mass ()

Electron relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?are>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-tau-mass-ratio ()

Electron-tau mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-tau-mass-ratio ()

Electron-tau mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-tau-mass-ratio ()

Electron-tau mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-to-alpha-particle-mass-ratio ()

Electron to alpha particle mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmalpha>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-to-alpha-particle-mass-ratio ()

Electron to alpha particle mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmalpha>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-to-alpha-particle-mass-ratio ()

Electron to alpha particle mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmalpha>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-to-shielded-helion-magnetic-moment-ratio ()

Electron to shielded helion magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmuhp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-to-shielded-helion-magnetic-moment-ratio ()

Electron to shielded helion magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmuhp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-to-shielded-helion-magnetic-moment-ratio ()

Electron to shielded helion magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmuhp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-to-shielded-proton-magnetic-moment-ratio ()

Electron to shielded proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-to-shielded-proton-magnetic-moment-ratio ()

Electron to shielded proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-to-shielded-proton-magnetic-moment-ratio ()

Electron to shielded proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muemsmupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-triton-mass-ratio ()

Electron-triton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-triton-mass-ratio ()

Electron-triton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-triton-mass-ratio ()

Electron-triton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mesmt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-volt ()

Electron volt.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-volt ()

Electron volt.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tevj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-volt ()

Electron volt.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tevj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-volt-atomic-mass-unit-relationship ()

Electron volt-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-volt-atomic-mass-unit-relationship ()

Electron volt-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-volt-atomic-mass-unit-relationship ()

Electron volt-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-volt-hartree-relationship ()

Electron volt-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-volt-hartree-relationship ()

Electron volt-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-volt-hartree-relationship ()

Electron volt-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-volt-hertz-relationship ()

Electron volt-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-volt-hertz-relationship ()

Electron volt-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-volt-hertz-relationship ()

Electron volt-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-volt-inverse-meter-relationship ()

Electron volt-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-volt-inverse-meter-relationship ()

Electron volt-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-volt-inverse-meter-relationship ()

Electron volt-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-volt-joule-relationship ()

Electron volt-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Revj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-volt-joule-relationship ()

Electron volt-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-volt-joule-relationship ()

Electron volt-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-volt-kelvin-relationship ()

Electron volt-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-volt-kelvin-relationship ()

Electron volt-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-volt-kelvin-relationship ()

Electron volt-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: electron-volt-kilogram-relationship ()

Electron volt-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: electron-volt-kilogram-relationship ()

Electron volt-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: electron-volt-kilogram-relationship ()

Electron volt-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?evkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: elementary-charge ()

Elementary charge.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?e>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: elementary-charge ()

Elementary charge.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?e>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: elementary-charge ()

Elementary charge.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?e>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: elementary-charge-over-h ()

Elementary charge over h.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: elementary-charge-over-h ()

Elementary charge over h.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: elementary-charge-over-h-bar ()

Elementary charge over h-bar.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?eshbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: faraday-constant ()

Faraday constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?f>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: faraday-constant ()

Faraday constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?f>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: faraday-constant ()

Faraday constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?f>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: faraday-constant-for-conventional-electric-current ()

Faraday constant for conventional electric current.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?f90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: faraday-constant-for-conventional-electric-current ()

Faraday constant for conventional electric current.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?f90>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: fermi-coupling-constant ()

Fermi coupling constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gf>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: fermi-coupling-constant ()

Fermi coupling constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gf>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: fermi-coupling-constant ()

Fermi coupling constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gf>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: fine-structure-constant ()

Fine-structure constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alph>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: fine-structure-constant ()

Fine-structure constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alph>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: fine-structure-constant ()

Fine-structure constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alph>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: first-radiation-constant ()

First radiation constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c11strc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: first-radiation-constant ()

First radiation constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c11strc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: first-radiation-constant ()

First radiation constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c11strc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: first-radiation-constant-for-spectral-radiance ()

First radiation constant for spectral radiance.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c1l>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: first-radiation-constant-for-spectral-radiance ()

First radiation constant for spectral radiance.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c1l>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: first-radiation-constant-for-spectral-radiance ()

First radiation constant for spectral radiance.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c1l>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hartree-atomic-mass-unit-relationship ()

Hartree-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hru>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hartree-atomic-mass-unit-relationship ()

Hartree-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hru>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hartree-atomic-mass-unit-relationship ()

Hartree-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hru>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hartree-electron-volt-relationship ()

Hartree-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Rhrev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hartree-electron-volt-relationship ()

Hartree-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hartree-electron-volt-relationship ()

Hartree-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hartree-energy ()

Hartree energy.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hartree-energy ()

Hartree energy.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hartree-energy ()

Hartree energy.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hartree-energy-in-ev ()

Hartree energy in eV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hartree-energy-in-ev ()

Hartree energy in eV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?threv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hartree-energy-in-ev ()

Hartree energy in eV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?threv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hartree-hertz-relationship ()

Hartree-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hartree-hertz-relationship ()

Hartree-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hartree-hertz-relationship ()

Hartree-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hartree-inverse-meter-relationship ()

Hartree-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hartree-inverse-meter-relationship ()

Hartree-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hartree-inverse-meter-relationship ()

Hartree-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hartree-joule-relationship ()

Hartree-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hartree-joule-relationship ()

Hartree-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hartree-joule-relationship ()

Hartree-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hartree-kelvin-relationship ()

Hartree-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hartree-kelvin-relationship ()

Hartree-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hartree-kelvin-relationship ()

Hartree-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hartree-kilogram-relationship ()

Hartree-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hartree-kilogram-relationship ()

Hartree-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hartree-kilogram-relationship ()

Hartree-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hrkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-electron-mass-ratio ()

Helion-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-electron-mass-ratio ()

Helion-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: helion-electron-mass-ratio ()

Helion-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-g-factor ()

Helion g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ghn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-g-factor ()

Helion g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ghn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: helion-g-factor ()

Helion g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ghn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-magnetic-moment ()

Helion magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-magnetic-moment ()

Helion magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: helion-magnetic-moment ()

Helion magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-magnetic-moment-to-bohr-magneton-ratio ()

Helion magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-magnetic-moment-to-bohr-magneton-ratio ()

Helion magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: helion-magnetic-moment-to-bohr-magneton-ratio ()

Helion magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-magnetic-moment-to-nuclear-magneton-ratio ()

Helion magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-magnetic-moment-to-nuclear-magneton-ratio ()

Helion magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: helion-magnetic-moment-to-nuclear-magneton-ratio ()

Helion magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-mass ()

Helion mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-mass ()

Helion mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: helion-mass ()

Helion mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-mass-energy-equivalent ()

Helion mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-mass-energy-equivalent ()

Helion mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: helion-mass-energy-equivalent ()

Helion mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-mass-energy-equivalent-in-mev ()

Helion mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-mass-energy-equivalent-in-mev ()

Helion mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: helion-mass-energy-equivalent-in-mev ()

Helion mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-mass-in-u ()

Helion mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-mass-in-u ()

Helion mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: helion-mass-in-u ()

Helion mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-molar-mass ()

Helion molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-molar-mass ()

Helion molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: helion-molar-mass ()

Helion molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-proton-mass-ratio ()

Helion-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-proton-mass-ratio ()

Helion-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: helion-proton-mass-ratio ()

Helion-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mhsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: helion-relative-atomic-mass ()

Helion relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?arh>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: helion-shielding-shift ()

Helion shielding shift.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmah>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hertz-atomic-mass-unit-relationship ()

Hertz-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hertz-atomic-mass-unit-relationship ()

Hertz-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hertz-atomic-mass-unit-relationship ()

Hertz-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hertz-electron-volt-relationship ()

Hertz-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hertz-electron-volt-relationship ()

Hertz-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hertz-electron-volt-relationship ()

Hertz-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hertz-hartree-relationship ()

Hertz-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hertz-hartree-relationship ()

Hertz-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hertz-hartree-relationship ()

Hertz-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hertz-inverse-meter-relationship ()

Hertz-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hertz-inverse-meter-relationship ()

Hertz-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hertz-inverse-meter-relationship ()

Hertz-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hertz-joule-relationship ()

Hertz-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hertz-joule-relationship ()

Hertz-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hertz-joule-relationship ()

Hertz-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hertz-kelvin-relationship ()

Hertz-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hertz-kelvin-relationship ()

Hertz-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hertz-kelvin-relationship ()

Hertz-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hertz-kilogram-relationship ()

Hertz-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: hertz-kilogram-relationship ()

Hertz-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: hertz-kilogram-relationship ()

Hertz-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hzkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: hyperfine-transition-frequency-of-caesium-133 ()

Hyperfine transition frequency of caesium-133.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nucs>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: inverse-fine-structure-constant ()

Inverse fine-structure constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alphinv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: inverse-fine-structure-constant ()

Inverse fine-structure constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alphinv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: inverse-fine-structure-constant ()

Inverse fine-structure constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?alphinv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: inverse-meter-atomic-mass-unit-relationship ()

Inverse meter-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: inverse-meter-atomic-mass-unit-relationship ()

Inverse meter-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: inverse-meter-atomic-mass-unit-relationship ()

Inverse meter-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: inverse-meter-electron-volt-relationship ()

Inverse meter-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: inverse-meter-electron-volt-relationship ()

Inverse meter-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: inverse-meter-electron-volt-relationship ()

Inverse meter-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: inverse-meter-hartree-relationship ()

Inverse meter-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: inverse-meter-hartree-relationship ()

Inverse meter-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: inverse-meter-hartree-relationship ()

Inverse meter-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: inverse-meter-hertz-relationship ()

Inverse meter-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: inverse-meter-hertz-relationship ()

Inverse meter-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: inverse-meter-hertz-relationship ()

Inverse meter-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: inverse-meter-joule-relationship ()

Inverse meter-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: inverse-meter-joule-relationship ()

Inverse meter-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: inverse-meter-joule-relationship ()

Inverse meter-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: inverse-meter-kelvin-relationship ()

Inverse meter-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: inverse-meter-kelvin-relationship ()

Inverse meter-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: inverse-meter-kelvin-relationship ()

Inverse meter-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: inverse-meter-kilogram-relationship ()

Inverse meter-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: inverse-meter-kilogram-relationship ()

Inverse meter-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: inverse-meter-kilogram-relationship ()

Inverse meter-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?minvkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: inverse-of-conductance-quantum ()

Inverse of conductance quantum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?invconqu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: inverse-of-conductance-quantum ()

Inverse of conductance quantum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?invconqu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: inverse-of-conductance-quantum ()

Inverse of conductance quantum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?invconqu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: josephson-constant ()

Josephson constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kjos>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: josephson-constant ()

Josephson constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kjos>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: josephson-constant ()

Josephson constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kjos>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: joule-atomic-mass-unit-relationship ()

Joule-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ju>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: joule-atomic-mass-unit-relationship ()

Joule-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ju>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: joule-atomic-mass-unit-relationship ()

Joule-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ju>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: joule-electron-volt-relationship ()

Joule-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: joule-electron-volt-relationship ()

Joule-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: joule-electron-volt-relationship ()

Joule-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: joule-hartree-relationship ()

Joule-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: joule-hartree-relationship ()

Joule-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: joule-hartree-relationship ()

Joule-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: joule-hertz-relationship ()

Joule-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: joule-hertz-relationship ()

Joule-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: joule-hertz-relationship ()

Joule-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: joule-inverse-meter-relationship ()

Joule-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: joule-inverse-meter-relationship ()

Joule-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: joule-inverse-meter-relationship ()

Joule-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: joule-kelvin-relationship ()

Joule-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: joule-kelvin-relationship ()

Joule-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: joule-kelvin-relationship ()

Joule-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: joule-kilogram-relationship ()

Joule-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: joule-kilogram-relationship ()

Joule-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: joule-kilogram-relationship ()

Joule-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?jkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kelvin-atomic-mass-unit-relationship ()

Kelvin-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ku>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kelvin-atomic-mass-unit-relationship ()

Kelvin-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ku>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kelvin-atomic-mass-unit-relationship ()

Kelvin-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ku>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kelvin-electron-volt-relationship ()

Kelvin-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Rkev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kelvin-electron-volt-relationship ()

Kelvin-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kelvin-electron-volt-relationship ()

Kelvin-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kelvin-hartree-relationship ()

Kelvin-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kelvin-hartree-relationship ()

Kelvin-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kelvin-hartree-relationship ()

Kelvin-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kelvin-hertz-relationship ()

Kelvin-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kelvin-hertz-relationship ()

Kelvin-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kelvin-hertz-relationship ()

Kelvin-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?khz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kelvin-inverse-meter-relationship ()

Kelvin-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kelvin-inverse-meter-relationship ()

Kelvin-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kelvin-inverse-meter-relationship ()

Kelvin-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kelvin-joule-relationship ()

Kelvin-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kelvin-joule-relationship ()

Kelvin-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kelvin-joule-relationship ()

Kelvin-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kelvin-kilogram-relationship ()

Kelvin-kilogram relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kelvin-kilogram-relationship ()

Kelvin-kilogram relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kelvin-kilogram-relationship ()

Kelvin-kilogram relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kkg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kilogram-atomic-mass-unit-relationship ()

Kilogram-atomic mass unit relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kilogram-atomic-mass-unit-relationship ()

Kilogram-atomic mass unit relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kilogram-atomic-mass-unit-relationship ()

Kilogram-atomic mass unit relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kilogram-electron-volt-relationship ()

Kilogram-electron volt relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kilogram-electron-volt-relationship ()

Kilogram-electron volt relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kilogram-electron-volt-relationship ()

Kilogram-electron volt relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kilogram-hartree-relationship ()

Kilogram-hartree relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kilogram-hartree-relationship ()

Kilogram-hartree relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kilogram-hartree-relationship ()

Kilogram-hartree relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kilogram-hertz-relationship ()

Kilogram-hertz relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kilogram-hertz-relationship ()

Kilogram-hertz relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kilogram-hertz-relationship ()

Kilogram-hertz relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kghz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kilogram-inverse-meter-relationship ()

Kilogram-inverse meter relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kilogram-inverse-meter-relationship ()

Kilogram-inverse meter relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kilogram-inverse-meter-relationship ()

Kilogram-inverse meter relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kilogram-joule-relationship ()

Kilogram-joule relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kilogram-joule-relationship ()

Kilogram-joule relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kilogram-joule-relationship ()

Kilogram-joule relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: kilogram-kelvin-relationship ()

Kilogram-kelvin relationship.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: kilogram-kelvin-relationship ()

Kilogram-kelvin relationship.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: kilogram-kelvin-relationship ()

Kilogram-kelvin relationship.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kgk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: lattice-parameter-of-silicon ()

Lattice parameter of silicon.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?asil>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: lattice-parameter-of-silicon ()

Lattice parameter of silicon.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?asil>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: lattice-parameter-of-silicon ()

Lattice parameter of silicon.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?asil>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: lattice-spacing-of-ideal-silicon-at-220 ()

Lattice spacing of ideal silicon (220).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?d220sil>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: loschmidt-constant-at-273.15k-and-100000pa ()

Loschmidt constant (273.15 K, 100000 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: loschmidt-constant-at-273.15k-and-100000pa ()

Loschmidt constant (273.15 K, 100000 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: loschmidt-constant-at-273.15k-and-100000pa ()

Loschmidt constant (273.15 K, 100000 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: loschmidt-constant-at-273.15k-and-101325pa ()

Loschmidt constant (273.15 K, 101325 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0std>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: loschmidt-constant-at-273.15k-and-101325pa ()

Loschmidt constant (273.15 K, 101325 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0std>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: loschmidt-constant-at-273.15k-and-101325pa ()

Loschmidt constant (273.15 K, 101325 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?n0std>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: luminous-efficacy ()

Luminous efficacy.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?kcd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: magnetic-constant ()

Magnetic constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: magnetic-constant ()

Magnetic constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: magnetic-flux-quantum ()

Magnetic flux quantum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?flxquhs2e>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: magnetic-flux-quantum ()

Magnetic flux quantum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?flxquhs2e>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: magnetic-flux-quantum ()

Magnetic flux quantum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?flxquhs2e>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: mo-x-unit ()

Mo x unit.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xumokalph1>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: mo-x-unit ()

Mo x unit.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xumokalph1>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: molar-gas-constant ()

Molar gas constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?r>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: molar-gas-constant ()

Molar gas constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?r>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: molar-gas-constant ()

Molar gas constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?r>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: molar-mass-constant ()

Molar mass constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: molar-mass-constant ()

Molar mass constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: molar-mass-constant ()

Molar mass constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: molar-mass-of-carbon-12 ()

Molar mass of carbon-12.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mm12c>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: molar-mass-of-carbon-12 ()

Molar mass of carbon-12.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mm12c>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: molar-mass-of-carbon-12 ()

Molar mass of carbon-12.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mm12c>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: molar-planck-constant ()

Molar Planck constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nah>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: molar-planck-constant ()

Molar Planck constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nah>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: molar-planck-constant ()

Molar Planck constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nah>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: molar-planck-constant-times-c ()

Molar Planck constant times c.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nahc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: molar-planck-constant-times-c ()

Molar Planck constant times c.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nahc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: molar-volume-of-ideal-gas-at-273.15k-and-100000pa ()

Molar volume of ideal gas (273.15 K, 100000 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: molar-volume-of-ideal-gas-at-273.15k-and-100000pa ()

Molar volume of ideal gas (273.15 K, 100000 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: molar-volume-of-ideal-gas-at-273.15k-and-100000pa ()

Molar volume of ideal gas (273.15 K, 100000 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvol>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: molar-volume-of-ideal-gas-at-273.15k-and-101325pa ()

Molar volume of ideal gas (273.15 K, 101325 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolstd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: molar-volume-of-ideal-gas-at-273.15k-and-101325pa ()

Molar volume of ideal gas (273.15 K, 101325 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolstd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: molar-volume-of-ideal-gas-at-273.15k-and-101325pa ()

Molar volume of ideal gas (273.15 K, 101325 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolstd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: molar-volume-of-silicon ()

Molar volume of silicon.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolsil>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: molar-volume-of-silicon ()

Molar volume of silicon.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolsil>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: molar-volume-of-silicon ()

Molar volume of silicon.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mvolsil>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: molybdenum-x-unit ()

Molybdenum x unit.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?xumokalph1>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-compton-wavelength ()

Muon Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-compton-wavelength ()

Muon Compton wavelength.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-compton-wavelength ()

Muon Compton wavelength.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-compton-wavelength-over-2-pi ()

Muon Compton wavelength over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-compton-wavelength-over-2-pi ()

Muon Compton wavelength over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-electron-mass-ratio ()

Muon-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-electron-mass-ratio ()

Muon-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-electron-mass-ratio ()

Muon-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-g-factor ()

Muon g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gmum>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-g-factor ()

Muon g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gmum>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-g-factor ()

Muon g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gmum>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-magnetic-moment ()

Muon magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumum>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-magnetic-moment ()

Muon magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumum>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-magnetic-moment ()

Muon magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumum>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-magnetic-moment-anomaly ()

Muon magnetic moment anomaly.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?amu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-magnetic-moment-anomaly ()

Muon magnetic moment anomaly.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?amu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-magnetic-moment-anomaly ()

Muon magnetic moment anomaly.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?amu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-magnetic-moment-to-bohr-magneton-ratio ()

Muon magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-magnetic-moment-to-bohr-magneton-ratio ()

Muon magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-magnetic-moment-to-bohr-magneton-ratio ()

Muon magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-magnetic-moment-to-nuclear-magneton-ratio ()

Muon magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-magnetic-moment-to-nuclear-magneton-ratio ()

Muon magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-magnetic-moment-to-nuclear-magneton-ratio ()

Muon magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-mass ()

Muon mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-mass ()

Muon mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-mass ()

Muon mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-mass-energy-equivalent ()

Muon mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-mass-energy-equivalent ()

Muon mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-mass-energy-equivalent ()

Muon mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-mass-energy-equivalent-in-mev ()

Muon mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-mass-energy-equivalent-in-mev ()

Muon mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-mass-energy-equivalent-in-mev ()

Muon mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-mass-in-u ()

Muon mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-mass-in-u ()

Muon mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-mass-in-u ()

Muon mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmuu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-molar-mass ()

Muon molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-molar-mass ()

Muon molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-molar-mass ()

Muon molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-neutron-mass-ratio ()

Muon-neutron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-neutron-mass-ratio ()

Muon-neutron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-neutron-mass-ratio ()

Muon-neutron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-proton-magnetic-moment-ratio ()

Muon-proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-proton-magnetic-moment-ratio ()

Muon-proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-proton-magnetic-moment-ratio ()

Muon-proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mumumsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-proton-mass-ratio ()

Muon-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-proton-mass-ratio ()

Muon-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-proton-mass-ratio ()

Muon-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: muon-tau-mass-ratio ()

Muon-tau mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: muon-tau-mass-ratio ()

Muon-tau mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: muon-tau-mass-ratio ()

Muon-tau mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmusmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: natural-unit-of-action ()

Natural unit of action.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nhbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: natural-unit-of-action ()

Natural unit of action.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: natural-unit-of-action ()

Natural unit of action.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: natural-unit-of-action-in-ev-s ()

Natural unit of action in eV s.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nhbarev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: natural-unit-of-action-in-ev-s ()

Natural unit of action in eV s.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thbarev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: natural-unit-of-action-in-ev-s ()

Natural unit of action in eV s.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?thbarev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: natural-unit-of-energy ()

Natural unit of energy.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nmec2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: natural-unit-of-energy ()

Natural unit of energy.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tmec2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: natural-unit-of-energy ()

Natural unit of energy.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tmec2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: natural-unit-of-energy-in-mev ()

Natural unit of energy in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nmec2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: natural-unit-of-energy-in-mev ()

Natural unit of energy in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tmec2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: natural-unit-of-energy-in-mev ()

Natural unit of energy in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tmec2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: natural-unit-of-length ()

Natural unit of length.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Necomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: natural-unit-of-length ()

Natural unit of length.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tecomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: natural-unit-of-length ()

Natural unit of length.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tecomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: natural-unit-of-mass ()

Natural unit of mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: natural-unit-of-mass ()

Natural unit of mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: natural-unit-of-mass ()

Natural unit of mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: natural-unit-of-momentum ()

Natural unit of momentum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: natural-unit-of-momentum ()

Natural unit of momentum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: natural-unit-of-momentum ()

Natural unit of momentum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mec>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: natural-unit-of-momentum-in-mev/c ()

Natural unit of momentum in MeV/c.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mecmevsc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: natural-unit-of-momentum-in-mev/c ()

Natural unit of momentum in MeV/c.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mecmevsc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: natural-unit-of-momentum-in-mev/c ()

Natural unit of momentum in MeV/c.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mecmevsc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: natural-unit-of-time ()

Natural unit of time.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nut>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: natural-unit-of-time ()

Natural unit of time.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nut>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: natural-unit-of-time ()

Natural unit of time.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?nut>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: natural-unit-of-velocity ()

Natural unit of velocity.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?Nc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: natural-unit-of-velocity ()

Natural unit of velocity.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: natural-unit-of-velocity ()

Natural unit of velocity.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-compton-wavelength ()

Neutron Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-compton-wavelength ()

Neutron Compton wavelength.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-compton-wavelength ()

Neutron Compton wavelength.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-compton-wavelength-over-2-pi ()

Neutron Compton wavelength over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-compton-wavelength-over-2-pi ()

Neutron Compton wavelength over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-electron-magnetic-moment-ratio ()

Neutron-electron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmue>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-electron-magnetic-moment-ratio ()

Neutron-electron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmue>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-electron-magnetic-moment-ratio ()

Neutron-electron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmue>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-electron-mass-ratio ()

Neutron-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-electron-mass-ratio ()

Neutron-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-electron-mass-ratio ()

Neutron-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-g-factor ()

Neutron g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gnn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-g-factor ()

Neutron g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gnn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-g-factor ()

Neutron g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gnn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-gyromagnetic-ratio ()

Neutron gyromagnetic ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gamman>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-gyromagnetic-ratio ()

Neutron gyromagnetic ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gamman>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-gyromagnetic-ratio ()

Neutron gyromagnetic ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gamman>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-gyromagnetic-ratio-in-mhz/t ()

Neutron gyromagnetic ratio in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammanbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-gyromagnetic-ratio-over-2-pi ()

Neutron gyromagnetic ratio over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammanbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-gyromagnetic-ratio-over-2-pi ()

Neutron gyromagnetic ratio over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammanbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-magnetic-moment ()

Neutron magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-magnetic-moment ()

Neutron magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-magnetic-moment ()

Neutron magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-magnetic-moment-to-bohr-magneton-ratio ()

Neutron magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-magnetic-moment-to-bohr-magneton-ratio ()

Neutron magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-magnetic-moment-to-bohr-magneton-ratio ()

Neutron magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-magnetic-moment-to-nuclear-magneton-ratio ()

Neutron magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-magnetic-moment-to-nuclear-magneton-ratio ()

Neutron magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-magnetic-moment-to-nuclear-magneton-ratio ()

Neutron magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-mass ()

Neutron mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-mass ()

Neutron mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-mass ()

Neutron mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-mass-energy-equivalent ()

Neutron mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-mass-energy-equivalent ()

Neutron mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-mass-energy-equivalent ()

Neutron mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-mass-energy-equivalent-in-mev ()

Neutron mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-mass-energy-equivalent-in-mev ()

Neutron mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-mass-energy-equivalent-in-mev ()

Neutron mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-mass-in-u ()

Neutron mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-mass-in-u ()

Neutron mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-mass-in-u ()

Neutron mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-molar-mass ()

Neutron molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-molar-mass ()

Neutron molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-molar-mass ()

Neutron molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-muon-mass-ratio ()

Neutron-muon mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-muon-mass-ratio ()

Neutron-muon mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-muon-mass-ratio ()

Neutron-muon mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-proton-magnetic-moment-ratio ()

Neutron-proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-proton-magnetic-moment-ratio ()

Neutron-proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-proton-magnetic-moment-ratio ()

Neutron-proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-proton-mass-difference ()

Neutron-proton mass difference.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-proton-mass-difference ()

Neutron-proton mass difference.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-proton-mass-difference ()

Neutron-proton mass difference.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-proton-mass-difference-energy-equivalent ()

Neutron-proton mass difference energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-proton-mass-difference-energy-equivalent ()

Neutron-proton mass difference energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-proton-mass-difference-energy-equivalent ()

Neutron-proton mass difference energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-proton-mass-difference-energy-equivalent-in-mev ()

Neutron-proton mass difference energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-proton-mass-difference-energy-equivalent-in-mev ()

Neutron-proton mass difference energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-proton-mass-difference-energy-equivalent-in-mev ()

Neutron-proton mass difference energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-proton-mass-difference-in-u ()

Neutron-proton mass difference in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-proton-mass-difference-in-u ()

Neutron-proton mass difference in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-proton-mass-difference-in-u ()

Neutron-proton mass difference in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnmmpu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-proton-mass-ratio ()

Neutron-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-proton-mass-ratio ()

Neutron-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-proton-mass-ratio ()

Neutron-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-relative-atomic-mass ()

Neutron relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?arn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-tau-mass-ratio ()

Neutron-tau mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-tau-mass-ratio ()

Neutron-tau mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-tau-mass-ratio ()

Neutron-tau mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mnsmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: neutron-to-shielded-proton-magnetic-moment-ratio ()

Neutron to shielded proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: neutron-to-shielded-proton-magnetic-moment-ratio ()

Neutron to shielded proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: neutron-to-shielded-proton-magnetic-moment-ratio ()

Neutron to shielded proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munsmupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: newton (f/df xo)

Newton’s method.

Package

codata-recommended-values-common.

Source

codata-common.lisp.

Function: newtonian-constant-of-gravitation ()

Newtonian constant of gravitation.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: newtonian-constant-of-gravitation ()

Newtonian constant of gravitation.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: newtonian-constant-of-gravitation ()

Newtonian constant of gravitation.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: newtonian-constant-of-gravitation-over-h-bar-c ()

Newtonian constant of gravitation over h-bar c.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bgspu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: newtonian-constant-of-gravitation-over-h-bar-c ()

Newtonian constant of gravitation over h-bar c.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bgspu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: newtonian-constant-of-gravitation-over-h-bar-c ()

Newtonian constant of gravitation over h-bar c.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bgspu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: nuclear-magneton ()

Nuclear magneton.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: nuclear-magneton ()

Nuclear magneton.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: nuclear-magneton ()

Nuclear magneton.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: nuclear-magneton-in-ev/t ()

Nuclear magneton in eV/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: nuclear-magneton-in-ev/t ()

Nuclear magneton in eV/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: nuclear-magneton-in-ev/t ()

Nuclear magneton in eV/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: nuclear-magneton-in-inverse-meter-per-tesla ()

Nuclear magneton in inverse meter per tesla.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshcminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: nuclear-magneton-in-inverse-meters-per-tesla ()

Nuclear magneton in inverse meters per tesla.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshcminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: nuclear-magneton-in-inverse-meters-per-tesla ()

Nuclear magneton in inverse meters per tesla.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshcminv>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: nuclear-magneton-in-k/t ()

Nuclear magneton in K/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munskk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: nuclear-magneton-in-k/t ()

Nuclear magneton in K/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munskk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: nuclear-magneton-in-k/t ()

Nuclear magneton in K/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munskk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: nuclear-magneton-in-mhz/t ()

Nuclear magneton in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: nuclear-magneton-in-mhz/t ()

Nuclear magneton in MHz/T.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: nuclear-magneton-in-mhz/t ()

Nuclear magneton in MHz/T.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?munshhz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: planck-constant ()

Planck constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?h>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: planck-constant ()

Planck constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?h>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: planck-constant ()

Planck constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?h>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: planck-constant-in-ev-s ()

Planck constant in eV s.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: planck-constant-in-ev-s ()

Planck constant in eV s.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: planck-constant-in-ev/hz ()

Planck constant in eV/Hz.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: planck-constant-over-2-pi ()

Planck constant over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: planck-constant-over-2-pi ()

Planck constant over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: planck-constant-over-2-pi-in-ev-s ()

Planck constant over 2 pi in eV s.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbarev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: planck-constant-over-2-pi-in-ev-s ()

Planck constant over 2 pi in eV s.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbarev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: planck-constant-over-2-pi-times-c-in-mev-fm ()

Planck constant over 2 pi times c in MeV fm.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbcmevf>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: planck-constant-over-2-pi-times-c-in-mev-fm ()

Planck constant over 2 pi times c in MeV fm.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbcmevf>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: planck-length ()

Planck length.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: planck-length ()

Planck length.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: planck-length ()

Planck length.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: planck-mass ()

Planck mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: planck-mass ()

Planck mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: planck-mass ()

Planck mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: planck-mass-energy-equivalent-in-gev ()

Planck mass energy equivalent in GeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkmc2gev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: planck-mass-energy-equivalent-in-gev ()

Planck mass energy equivalent in GeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkmc2gev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: planck-mass-energy-equivalent-in-gev ()

Planck mass energy equivalent in GeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkmc2gev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: planck-temperature ()

Planck temperature.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plktmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: planck-temperature ()

Planck temperature.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plktmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: planck-temperature ()

Planck temperature.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plktmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: planck-time ()

Planck time.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: planck-time ()

Planck time.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: planck-time ()

Planck time.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?plkt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-charge-to-mass-quotient ()

Proton charge to mass quotient.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-charge-to-mass-quotient ()

Proton charge to mass quotient.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-charge-to-mass-quotient ()

Proton charge to mass quotient.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?esmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-compton-wavelength ()

Proton Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-compton-wavelength ()

Proton Compton wavelength.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-compton-wavelength ()

Proton Compton wavelength.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-compton-wavelength-over-2-pi ()

Proton Compton wavelength over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-compton-wavelength-over-2-pi ()

Proton Compton wavelength over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-electron-mass-ratio ()

Proton-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-electron-mass-ratio ()

Proton-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-electron-mass-ratio ()

Proton-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-g-factor ()

Proton g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-g-factor ()

Proton g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-g-factor ()

Proton g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-gyromagnetic-ratio ()

Proton gyromagnetic ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammap>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-gyromagnetic-ratio ()

Proton gyromagnetic ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammap>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-gyromagnetic-ratio ()

Proton gyromagnetic ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammap>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-gyromagnetic-ratio-in-mhz/t ()

Proton gyromagnetic ratio in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-gyromagnetic-ratio-over-2-pi ()

Proton gyromagnetic ratio over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-gyromagnetic-ratio-over-2-pi ()

Proton gyromagnetic ratio over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-magnetic-moment ()

Proton magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-magnetic-moment ()

Proton magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-magnetic-moment ()

Proton magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-magnetic-moment-to-bohr-magneton-ratio ()

Proton magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-magnetic-moment-to-bohr-magneton-ratio ()

Proton magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-magnetic-moment-to-bohr-magneton-ratio ()

Proton magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-magnetic-moment-to-nuclear-magneton-ratio ()

Proton magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-magnetic-moment-to-nuclear-magneton-ratio ()

Proton magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-magnetic-moment-to-nuclear-magneton-ratio ()

Proton magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-magnetic-shielding-correction ()

Proton magnetic shielding correction.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmapp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-magnetic-shielding-correction ()

Proton magnetic shielding correction.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmapp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-magnetic-shielding-correction ()

Proton magnetic shielding correction.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmapp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-mass ()

Proton mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-mass ()

Proton mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-mass ()

Proton mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-mass-energy-equivalent ()

Proton mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-mass-energy-equivalent ()

Proton mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-mass-energy-equivalent ()

Proton mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-mass-energy-equivalent-in-mev ()

Proton mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-mass-energy-equivalent-in-mev ()

Proton mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-mass-energy-equivalent-in-mev ()

Proton mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-mass-in-u ()

Proton mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-mass-in-u ()

Proton mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-mass-in-u ()

Proton mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-molar-mass ()

Proton molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-molar-mass ()

Proton molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-molar-mass ()

Proton molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-muon-mass-ratio ()

Proton-muon mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-muon-mass-ratio ()

Proton-muon mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-muon-mass-ratio ()

Proton-muon mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-neutron-magnetic-moment-ratio ()

Proton-neutron magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmunn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-neutron-magnetic-moment-ratio ()

Proton-neutron magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmunn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-neutron-magnetic-moment-ratio ()

Proton-neutron magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupsmunn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-neutron-mass-ratio ()

Proton-neutron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-neutron-mass-ratio ()

Proton-neutron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-neutron-mass-ratio ()

Proton-neutron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-relative-atomic-mass ()

Proton relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?arp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-rms-charge-radius ()

Proton rms charge radius.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-rms-charge-radius ()

Proton rms charge radius.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-rms-charge-radius ()

Proton rms charge radius.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: proton-tau-mass-ratio ()

Proton-tau mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: proton-tau-mass-ratio ()

Proton-tau mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: proton-tau-mass-ratio ()

Proton-tau mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mpsmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: quantum-of-circulation ()

Quantum of circulation.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?qucirchs2me>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: quantum-of-circulation ()

Quantum of circulation.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?qucirchs2me>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: quantum-of-circulation ()

Quantum of circulation.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?qucirchs2me>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: quantum-of-circulation-times-2 ()

Quantum of circulation times 2.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: quantum-of-circulation-times-2 ()

Quantum of circulation times 2.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: quantum-of-circulation-times-2 ()

Quantum of circulation times 2.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: reduced-compton-wavelength ()

Reduced Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ecomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: reduced-muon-compton-wavelength ()

Reduced muon Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mcomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: reduced-neutron-compton-wavelength ()

Reduced neutron Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ncomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: reduced-planck-constant ()

Reduced Planck constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: reduced-planck-constant-in-ev-s ()

Reduced Planck constant in eV s.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbarev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: reduced-planck-constant-times-c-in-mev-fm ()

Reduced Planck constant times c in MeV fm.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?hbcmevf>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: reduced-proton-compton-wavelength ()

Reduced proton Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?pcomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: reduced-tau-compton-wavelength ()

Reduced tau Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: rydberg-constant ()

Rydberg constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ryd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: rydberg-constant ()

Rydberg constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ryd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: rydberg-constant ()

Rydberg constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ryd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: rydberg-constant-times-c-in-hz ()

Rydberg constant times c in Hz.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydchz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: rydberg-constant-times-c-in-hz ()

Rydberg constant times c in Hz.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydchz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: rydberg-constant-times-c-in-hz ()

Rydberg constant times c in Hz.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydchz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: rydberg-constant-times-hc-in-ev ()

Rydberg constant times hc in eV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: rydberg-constant-times-hc-in-ev ()

Rydberg constant times hc in eV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: rydberg-constant-times-hc-in-ev ()

Rydberg constant times hc in eV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: rydberg-constant-times-hc-in-j ()

Rydberg constant times hc in J.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: rydberg-constant-times-hc-in-j ()

Rydberg constant times hc in J.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: rydberg-constant-times-hc-in-j ()

Rydberg constant times hc in J.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rydhcj>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: sackur-tetrode-constant-at-1k-and-100000pa ()

Sackur-Tetrode constant (1 K, 100000 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0sr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: sackur-tetrode-constant-at-1k-and-100000pa ()

Sackur-Tetrode constant (1 K, 100000 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0sr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: sackur-tetrode-constant-at-1k-and-100000pa ()

Sackur-Tetrode constant (1 K, 100000 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0sr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: sackur-tetrode-constant-at-1k-and-101325pa ()

Sackur-Tetrode constant (1 K, 101325 Pa).

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0srstd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: sackur-tetrode-constant-at-1k-and-101325pa ()

Sackur-Tetrode constant (1 K, 101325 Pa).

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0srstd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: sackur-tetrode-constant-at-1k-and-101325pa ()

Sackur-Tetrode constant (1 K, 101325 Pa).

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?s0srstd>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: second-radiation-constant ()

Second radiation constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c22ndrc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: second-radiation-constant ()

Second radiation constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c22ndrc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: second-radiation-constant ()

Second radiation constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c22ndrc>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-helion-gyromagnetic-ratio ()

Shielded helion gyromagnetic ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-helion-gyromagnetic-ratio ()

Shielded helion gyromagnetic ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-helion-gyromagnetic-ratio ()

Shielded helion gyromagnetic ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-helion-gyromagnetic-ratio-in-mhz/t ()

Shielded helion gyromagnetic ratio in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahpbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-helion-gyromagnetic-ratio-over-2-pi ()

Shielded helion gyromagnetic ratio over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahpbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-helion-gyromagnetic-ratio-over-2-pi ()

Shielded helion gyromagnetic ratio over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammahpbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-helion-magnetic-moment ()

Shielded helion magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-helion-magnetic-moment ()

Shielded helion magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-helion-magnetic-moment ()

Shielded helion magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-helion-magnetic-moment-to-bohr-magneton-ratio ()

Shielded helion magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-helion-magnetic-moment-to-bohr-magneton-ratio ()

Shielded helion magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-helion-magnetic-moment-to-bohr-magneton-ratio ()

Shielded helion magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-helion-magnetic-moment-to-nuclear-magneton-ratio ()

Shielded helion magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-helion-magnetic-moment-to-nuclear-magneton-ratio ()

Shielded helion magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-helion-magnetic-moment-to-nuclear-magneton-ratio ()

Shielded helion magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-helion-to-proton-magnetic-moment-ratio ()

Shielded helion to proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-helion-to-proton-magnetic-moment-ratio ()

Shielded helion to proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-helion-to-proton-magnetic-moment-ratio ()

Shielded helion to proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-helion-to-shielded-proton-magnetic-moment-ratio ()

Shielded helion to shielded proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-helion-to-shielded-proton-magnetic-moment-ratio ()

Shielded helion to shielded proton magnetic moment ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-helion-to-shielded-proton-magnetic-moment-ratio ()

Shielded helion to shielded proton magnetic moment ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muhpsmupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-proton-gyromagnetic-ratio ()

Shielded proton gyromagnetic ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-proton-gyromagnetic-ratio ()

Shielded proton gyromagnetic ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-proton-gyromagnetic-ratio ()

Shielded proton gyromagnetic ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammapp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-proton-gyromagnetic-ratio-in-mhz/t ()

Shielded proton gyromagnetic ratio in MHz/T.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammappbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-proton-gyromagnetic-ratio-over-2-pi ()

Shielded proton gyromagnetic ratio over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammappbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-proton-gyromagnetic-ratio-over-2-pi ()

Shielded proton gyromagnetic ratio over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gammappbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-proton-magnetic-moment ()

Shielded proton magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-proton-magnetic-moment ()

Shielded proton magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-proton-magnetic-moment ()

Shielded proton magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mupp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-proton-magnetic-moment-to-bohr-magneton-ratio ()

Shielded proton magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-proton-magnetic-moment-to-bohr-magneton-ratio ()

Shielded proton magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-proton-magnetic-moment-to-bohr-magneton-ratio ()

Shielded proton magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielded-proton-magnetic-moment-to-nuclear-magneton-ratio ()

Shielded proton magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielded-proton-magnetic-moment-to-nuclear-magneton-ratio ()

Shielded proton magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: shielded-proton-magnetic-moment-to-nuclear-magneton-ratio ()

Shielded proton magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?muppsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: shielding-difference-of-d-and-p-in-hd ()

Shielding difference of d and p in HD.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sdp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: shielding-difference-of-t-and-p-in-ht ()

Shielding difference of t and p in HT.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: speed-of-light-in-vacuum ()

Speed of light in vacuum.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: speed-of-light-in-vacuum ()

Speed of light in vacuum.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: speed-of-light-in-vacuum ()

Speed of light in vacuum.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?c>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: standard-acceleration-of-gravity ()

Standard acceleration of gravity.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: standard-acceleration-of-gravity ()

Standard acceleration of gravity.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: standard-acceleration-of-gravity ()

Standard acceleration of gravity.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: standard-atmosphere ()

Standard atmosphere.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdatm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: standard-atmosphere ()

Standard atmosphere.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdatm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: standard-atmosphere ()

Standard atmosphere.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdatm>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: standard-state-pressure ()

Standard-state pressure.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdspr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: standard-state-pressure ()

Standard-state pressure.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdspr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: standard-state-pressure ()

Standard-state pressure.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?stdspr>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: stefan-boltzmann-constant ()

Stefan-Boltzmann constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigma>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: stefan-boltzmann-constant ()

Stefan-Boltzmann constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigma>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: stefan-boltzmann-constant ()

Stefan-Boltzmann constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigma>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: string-value (symbol)

Return the string representation of a recommended value.

Argument SYMBOL is the symbol of a recommended value.

Value is the string representation of the recommended value, or nil if SYMBOL is not a valid symbol of a recommended value.

The string representation uses the letter E as the exponent char.

Package

codata-recommended-values.

Source

codata.lisp.

Function: tau-compton-wavelength ()

Tau Compton wavelength.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: tau-compton-wavelength ()

Tau Compton wavelength.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: tau-compton-wavelength ()

Tau Compton wavelength.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwl>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: tau-compton-wavelength-over-2-pi ()

Tau Compton wavelength over 2 pi.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: tau-compton-wavelength-over-2-pi ()

Tau Compton wavelength over 2 pi.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tcomwlbar>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: tau-electron-mass-ratio ()

Tau-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: tau-electron-mass-ratio ()

Tau-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: tau-electron-mass-ratio ()

Tau-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: tau-energy-equivalent ()

Tau energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: tau-mass ()

Tau mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: tau-mass ()

Tau mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: tau-mass ()

Tau mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: tau-mass-energy-equivalent ()

Tau mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: tau-mass-energy-equivalent ()

Tau mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: tau-mass-energy-equivalent ()

Tau mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: tau-mass-energy-equivalent-in-mev ()

Tau mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: tau-mass-energy-equivalent-in-mev ()

Tau mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: tau-mass-in-u ()

Tau mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: tau-mass-in-u ()

Tau mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: tau-mass-in-u ()

Tau mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtauu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: tau-molar-mass ()

Tau molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: tau-molar-mass ()

Tau molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: tau-molar-mass ()

Tau molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmtau>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: tau-muon-mass-ratio ()

Tau-muon mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: tau-muon-mass-ratio ()

Tau-muon mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: tau-muon-mass-ratio ()

Tau-muon mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmmu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: tau-neutron-mass-ratio ()

Tau-neutron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: tau-neutron-mass-ratio ()

Tau-neutron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: tau-neutron-mass-ratio ()

Tau-neutron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: tau-proton-mass-ratio ()

Tau-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: tau-proton-mass-ratio ()

Tau-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: tau-proton-mass-ratio ()

Tau-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtausmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: thomson-cross-section ()

Thomson cross section.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmae>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: thomson-cross-section ()

Thomson cross section.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmae>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: thomson-cross-section ()

Thomson cross section.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sigmae>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-electron-mass-ratio ()

Triton-electron mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-electron-mass-ratio ()

Triton-electron mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: triton-electron-mass-ratio ()

Triton-electron mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsme>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-g-factor ()

Triton g factor.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gtn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-g-factor ()

Triton g factor.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gtn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: triton-g-factor ()

Triton g factor.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?gtn>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-magnetic-moment ()

Triton magnetic moment.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mut>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-magnetic-moment ()

Triton magnetic moment.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mut>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: triton-magnetic-moment ()

Triton magnetic moment.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mut>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-magnetic-moment-to-bohr-magneton-ratio ()

Triton magnetic moment to Bohr magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-magnetic-moment-to-bohr-magneton-ratio ()

Triton magnetic moment to Bohr magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: triton-magnetic-moment-to-bohr-magneton-ratio ()

Triton magnetic moment to Bohr magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmub>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-magnetic-moment-to-nuclear-magneton-ratio ()

Triton magnetic moment to nuclear magneton ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-magnetic-moment-to-nuclear-magneton-ratio ()

Triton magnetic moment to nuclear magneton ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: triton-magnetic-moment-to-nuclear-magneton-ratio ()

Triton magnetic moment to nuclear magneton ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmun>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-mass ()

Triton mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-mass ()

Triton mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: triton-mass ()

Triton mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-mass-energy-equivalent ()

Triton mass energy equivalent.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-mass-energy-equivalent ()

Triton mass energy equivalent.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: triton-mass-energy-equivalent ()

Triton mass energy equivalent.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-mass-energy-equivalent-in-mev ()

Triton mass energy equivalent in MeV.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-mass-energy-equivalent-in-mev ()

Triton mass energy equivalent in MeV.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: triton-mass-energy-equivalent-in-mev ()

Triton mass energy equivalent in MeV.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtc2mev>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-mass-in-u ()

Triton mass in u.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-mass-in-u ()

Triton mass in u.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: triton-mass-in-u ()

Triton mass in u.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtu>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-molar-mass ()

Triton molar mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-molar-mass ()

Triton molar mass.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: triton-molar-mass ()

Triton molar mass.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mmt>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-proton-mass-ratio ()

Triton-proton mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-proton-mass-ratio ()

Triton-proton mass ratio.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: triton-proton-mass-ratio ()

Triton-proton mass ratio.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mtsmp>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: triton-relative-atomic-mass ()

Triton relative atomic mass.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?art>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: triton-to-proton-magnetic-moment-ratio ()

Triton to proton magnetic moment ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mutsmup>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: unified-atomic-mass-unit ()

Unified atomic mass unit.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ukg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: unified-atomic-mass-unit ()

Unified atomic mass unit.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tukg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: unified-atomic-mass-unit ()

Unified atomic mass unit.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?tukg>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: vacuum-electric-permittivity ()

Vacuum electric permittivity.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?ep0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: vacuum-magnetic-permeability ()

Vacuum magnetic permeability.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?mu0>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: von-klitzing-constant ()

Von Klitzing constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: von-klitzing-constant ()

Von Klitzing constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: von-klitzing-constant ()

Von Klitzing constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rk>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: w-to-z-mass-ratio ()

W to Z mass ratio.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?rmwmz>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: weak-mixing-angle ()

Weak mixing angle.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sin2th>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: weak-mixing-angle ()

Weak mixing angle.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sin2th>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: weak-mixing-angle ()

Weak mixing angle.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?sin2th>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: wien-frequency-displacement-law-constant ()

Wien frequency displacement law constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bpwien>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: wien-frequency-displacement-law-constant ()

Wien frequency displacement law constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bpwien>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: wien-frequency-displacement-law-constant ()

Wien frequency displacement law constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bpwien>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.

Function: wien-wavelength-displacement-law-constant ()

Wien wavelength displacement law constant.

2018 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bwien>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Function: wien-wavelength-displacement-law-constant ()

Wien wavelength displacement law constant.

2010 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bwien>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Function: wien-wavelength-displacement-law-constant ()

Wien wavelength displacement law constant.

2014 CODATA recommended value.

See <http://physics.nist.gov/cgi-bin/cuu/Value?bwien>.

Primary value is the value of the constant, secondary value is the standard uncertainty, and tertiary value is the relative standard uncertainty.

Package

codata-recommended-values-2014.

Source

codata-2014.lisp.


5.2 Internals


5.2.1 Macros

Macro: with-early-bindings (&body body)
Package

codata-recommended-values-2018.

Source

codata-2018.lisp.

Macro: with-early-bindings (&body body)
Package

codata-recommended-values-2010.

Source

codata-2010.lisp.

Macro: with-early-bindings (&body body)
Package

codata-recommended-values-2014.

Source

codata-2014.lisp.


Appendix A Indexes


A.1 Concepts


A.2 Functions

Jump to:   2  
A   B   C   D   E   F   H   I   J   K   L   M   N   P   Q   R   S   T   U   V   W  
Index Entry  Section

2
220-lattice-spacing-of-silicon: Public ordinary functions
220-lattice-spacing-of-silicon: Public ordinary functions

A
alpha-particle-electron-mass-ratio: Public ordinary functions
alpha-particle-electron-mass-ratio: Public ordinary functions
alpha-particle-electron-mass-ratio: Public ordinary functions
alpha-particle-mass: Public ordinary functions
alpha-particle-mass: Public ordinary functions
alpha-particle-mass: Public ordinary functions
alpha-particle-mass-energy-equivalent: Public ordinary functions
alpha-particle-mass-energy-equivalent: Public ordinary functions
alpha-particle-mass-energy-equivalent: Public ordinary functions
alpha-particle-mass-energy-equivalent-in-mev: Public ordinary functions
alpha-particle-mass-energy-equivalent-in-mev: Public ordinary functions
alpha-particle-mass-energy-equivalent-in-mev: Public ordinary functions
alpha-particle-mass-in-u: Public ordinary functions
alpha-particle-mass-in-u: Public ordinary functions
alpha-particle-mass-in-u: Public ordinary functions
alpha-particle-molar-mass: Public ordinary functions
alpha-particle-molar-mass: Public ordinary functions
alpha-particle-molar-mass: Public ordinary functions
alpha-particle-proton-mass-ratio: Public ordinary functions
alpha-particle-proton-mass-ratio: Public ordinary functions
alpha-particle-proton-mass-ratio: Public ordinary functions
alpha-particle-relative-atomic-mass: Public ordinary functions
angstrom-star: Public ordinary functions
angstrom-star: Public ordinary functions
angstrom-star: Public ordinary functions
atomic-mass-constant: Public ordinary functions
atomic-mass-constant: Public ordinary functions
atomic-mass-constant: Public ordinary functions
atomic-mass-constant-energy-equivalent: Public ordinary functions
atomic-mass-constant-energy-equivalent: Public ordinary functions
atomic-mass-constant-energy-equivalent: Public ordinary functions
atomic-mass-constant-energy-equivalent-in-mev: Public ordinary functions
atomic-mass-constant-energy-equivalent-in-mev: Public ordinary functions
atomic-mass-constant-energy-equivalent-in-mev: Public ordinary functions
atomic-mass-unit-electron-volt-relationship: Public ordinary functions
atomic-mass-unit-electron-volt-relationship: Public ordinary functions
atomic-mass-unit-electron-volt-relationship: Public ordinary functions
atomic-mass-unit-hartree-relationship: Public ordinary functions
atomic-mass-unit-hartree-relationship: Public ordinary functions
atomic-mass-unit-hartree-relationship: Public ordinary functions
atomic-mass-unit-hertz-relationship: Public ordinary functions
atomic-mass-unit-hertz-relationship: Public ordinary functions
atomic-mass-unit-hertz-relationship: Public ordinary functions
atomic-mass-unit-inverse-meter-relationship: Public ordinary functions
atomic-mass-unit-inverse-meter-relationship: Public ordinary functions
atomic-mass-unit-inverse-meter-relationship: Public ordinary functions
atomic-mass-unit-joule-relationship: Public ordinary functions
atomic-mass-unit-joule-relationship: Public ordinary functions
atomic-mass-unit-joule-relationship: Public ordinary functions
atomic-mass-unit-kelvin-relationship: Public ordinary functions
atomic-mass-unit-kelvin-relationship: Public ordinary functions
atomic-mass-unit-kelvin-relationship: Public ordinary functions
atomic-mass-unit-kilogram-relationship: Public ordinary functions
atomic-mass-unit-kilogram-relationship: Public ordinary functions
atomic-mass-unit-kilogram-relationship: Public ordinary functions
atomic-unit-of-action: Public ordinary functions
atomic-unit-of-action: Public ordinary functions
atomic-unit-of-action: Public ordinary functions
atomic-unit-of-charge: Public ordinary functions
atomic-unit-of-charge: Public ordinary functions
atomic-unit-of-charge: Public ordinary functions
atomic-unit-of-charge-density: Public ordinary functions
atomic-unit-of-charge-density: Public ordinary functions
atomic-unit-of-charge-density: Public ordinary functions
atomic-unit-of-current: Public ordinary functions
atomic-unit-of-current: Public ordinary functions
atomic-unit-of-current: Public ordinary functions
atomic-unit-of-electric-dipole-moment: Public ordinary functions
atomic-unit-of-electric-dipole-moment: Public ordinary functions
atomic-unit-of-electric-dipole-moment: Public ordinary functions
atomic-unit-of-electric-field: Public ordinary functions
atomic-unit-of-electric-field: Public ordinary functions
atomic-unit-of-electric-field: Public ordinary functions
atomic-unit-of-electric-field-gradient: Public ordinary functions
atomic-unit-of-electric-field-gradient: Public ordinary functions
atomic-unit-of-electric-field-gradient: Public ordinary functions
atomic-unit-of-electric-polarizability: Public ordinary functions
atomic-unit-of-electric-polarizability: Public ordinary functions
atomic-unit-of-electric-polarizability: Public ordinary functions
atomic-unit-of-electric-potential: Public ordinary functions
atomic-unit-of-electric-potential: Public ordinary functions
atomic-unit-of-electric-potential: Public ordinary functions
atomic-unit-of-electric-quadrupole-moment: Public ordinary functions
atomic-unit-of-electric-quadrupole-moment: Public ordinary functions
atomic-unit-of-electric-quadrupole-moment: Public ordinary functions
atomic-unit-of-energy: Public ordinary functions
atomic-unit-of-energy: Public ordinary functions
atomic-unit-of-energy: Public ordinary functions
atomic-unit-of-first-hyperpolarizability: Public ordinary functions
atomic-unit-of-first-hyperpolarizability: Public ordinary functions
atomic-unit-of-first-hyperpolarizability: Public ordinary functions
atomic-unit-of-force: Public ordinary functions
atomic-unit-of-force: Public ordinary functions
atomic-unit-of-force: Public ordinary functions
atomic-unit-of-length: Public ordinary functions
atomic-unit-of-length: Public ordinary functions
atomic-unit-of-length: Public ordinary functions
atomic-unit-of-magnetic-dipole-moment: Public ordinary functions
atomic-unit-of-magnetic-dipole-moment: Public ordinary functions
atomic-unit-of-magnetic-dipole-moment: Public ordinary functions
atomic-unit-of-magnetic-flux-density: Public ordinary functions
atomic-unit-of-magnetic-flux-density: Public ordinary functions
atomic-unit-of-magnetic-flux-density: Public ordinary functions
atomic-unit-of-magnetizability: Public ordinary functions
atomic-unit-of-magnetizability: Public ordinary functions
atomic-unit-of-magnetizability: Public ordinary functions
atomic-unit-of-mass: Public ordinary functions
atomic-unit-of-mass: Public ordinary functions
atomic-unit-of-mass: Public ordinary functions
atomic-unit-of-momentum: Public ordinary functions
atomic-unit-of-momentum: Public ordinary functions
atomic-unit-of-momentum: Public ordinary functions
atomic-unit-of-permittivity: Public ordinary functions
atomic-unit-of-permittivity: Public ordinary functions
atomic-unit-of-permittivity: Public ordinary functions
atomic-unit-of-second-hyperpolarizability: Public ordinary functions
atomic-unit-of-second-hyperpolarizability: Public ordinary functions
atomic-unit-of-second-hyperpolarizability: Public ordinary functions
atomic-unit-of-time: Public ordinary functions
atomic-unit-of-time: Public ordinary functions
atomic-unit-of-time: Public ordinary functions
atomic-unit-of-velocity: Public ordinary functions
atomic-unit-of-velocity: Public ordinary functions
atomic-unit-of-velocity: Public ordinary functions
avogadro-constant: Public ordinary functions
avogadro-constant: Public ordinary functions
avogadro-constant: Public ordinary functions

B
bohr-magneton: Public ordinary functions
bohr-magneton: Public ordinary functions
bohr-magneton: Public ordinary functions
bohr-magneton-in-ev/t: Public ordinary functions
bohr-magneton-in-ev/t: Public ordinary functions
bohr-magneton-in-ev/t: Public ordinary functions
bohr-magneton-in-hz/t: Public ordinary functions
bohr-magneton-in-hz/t: Public ordinary functions
bohr-magneton-in-hz/t: Public ordinary functions
bohr-magneton-in-inverse-meter-per-tesla: Public ordinary functions
bohr-magneton-in-inverse-meters-per-tesla: Public ordinary functions
bohr-magneton-in-inverse-meters-per-tesla: Public ordinary functions
bohr-magneton-in-k/t: Public ordinary functions
bohr-magneton-in-k/t: Public ordinary functions
bohr-magneton-in-k/t: Public ordinary functions
bohr-radius: Public ordinary functions
bohr-radius: Public ordinary functions
bohr-radius: Public ordinary functions
boltzmann-constant: Public ordinary functions
boltzmann-constant: Public ordinary functions
boltzmann-constant: Public ordinary functions
boltzmann-constant-in-ev/k: Public ordinary functions
boltzmann-constant-in-ev/k: Public ordinary functions
boltzmann-constant-in-ev/k: Public ordinary functions
boltzmann-constant-in-hz/k: Public ordinary functions
boltzmann-constant-in-hz/k: Public ordinary functions
boltzmann-constant-in-hz/k: Public ordinary functions
boltzmann-constant-in-inverse-meter-per-kelvin: Public ordinary functions
boltzmann-constant-in-inverse-meters-per-kelvin: Public ordinary functions
boltzmann-constant-in-inverse-meters-per-kelvin: Public ordinary functions

C
characteristic-impedance-of-vacuum: Public ordinary functions
characteristic-impedance-of-vacuum: Public ordinary functions
characteristic-impedance-of-vacuum: Public ordinary functions
classical-electron-radius: Public ordinary functions
classical-electron-radius: Public ordinary functions
classical-electron-radius: Public ordinary functions
compton-wavelength: Public ordinary functions
compton-wavelength: Public ordinary functions
compton-wavelength: Public ordinary functions
compton-wavelength-over-2-pi: Public ordinary functions
compton-wavelength-over-2-pi: Public ordinary functions
conductance-quantum: Public ordinary functions
conductance-quantum: Public ordinary functions
conductance-quantum: Public ordinary functions
conventional-value-of-ampere-90: Public ordinary functions
conventional-value-of-coulomb-90: Public ordinary functions
conventional-value-of-farad-90: Public ordinary functions
conventional-value-of-henry-90: Public ordinary functions
conventional-value-of-josephson-constant: Public ordinary functions
conventional-value-of-josephson-constant: Public ordinary functions
conventional-value-of-josephson-constant: Public ordinary functions
conventional-value-of-ohm-90: Public ordinary functions
conventional-value-of-volt-90: Public ordinary functions
conventional-value-of-von-klitzing-constant: Public ordinary functions
conventional-value-of-von-klitzing-constant: Public ordinary functions
conventional-value-of-von-klitzing-constant: Public ordinary functions
conventional-value-of-watt-90: Public ordinary functions
copper-x-unit: Public ordinary functions
cu-x-unit: Public ordinary functions
cu-x-unit: Public ordinary functions

D
defconst: Public macros
define-constant: Public macros
defsubst: Public macros
deuteron-electron-magnetic-moment-ratio: Public ordinary functions
deuteron-electron-magnetic-moment-ratio: Public ordinary functions
deuteron-electron-magnetic-moment-ratio: Public ordinary functions
deuteron-electron-mass-ratio: Public ordinary functions
deuteron-electron-mass-ratio: Public ordinary functions
deuteron-electron-mass-ratio: Public ordinary functions
deuteron-g-factor: Public ordinary functions
deuteron-g-factor: Public ordinary functions
deuteron-g-factor: Public ordinary functions
deuteron-magnetic-moment: Public ordinary functions
deuteron-magnetic-moment: Public ordinary functions
deuteron-magnetic-moment: Public ordinary functions
deuteron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
deuteron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
deuteron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
deuteron-mass: Public ordinary functions
deuteron-mass: Public ordinary functions
deuteron-mass: Public ordinary functions
deuteron-mass-energy-equivalent: Public ordinary functions
deuteron-mass-energy-equivalent: Public ordinary functions
deuteron-mass-energy-equivalent: Public ordinary functions
deuteron-mass-energy-equivalent-in-mev: Public ordinary functions
deuteron-mass-energy-equivalent-in-mev: Public ordinary functions
deuteron-mass-energy-equivalent-in-mev: Public ordinary functions
deuteron-mass-in-u: Public ordinary functions
deuteron-mass-in-u: Public ordinary functions
deuteron-mass-in-u: Public ordinary functions
deuteron-molar-mass: Public ordinary functions
deuteron-molar-mass: Public ordinary functions
deuteron-molar-mass: Public ordinary functions
deuteron-neutron-magnetic-moment-ratio: Public ordinary functions
deuteron-neutron-magnetic-moment-ratio: Public ordinary functions
deuteron-neutron-magnetic-moment-ratio: Public ordinary functions
deuteron-proton-magnetic-moment-ratio: Public ordinary functions
deuteron-proton-magnetic-moment-ratio: Public ordinary functions
deuteron-proton-magnetic-moment-ratio: Public ordinary functions
deuteron-proton-mass-ratio: Public ordinary functions
deuteron-proton-mass-ratio: Public ordinary functions
deuteron-proton-mass-ratio: Public ordinary functions
deuteron-relative-atomic-mass: Public ordinary functions
deuteron-rms-charge-radius: Public ordinary functions
deuteron-rms-charge-radius: Public ordinary functions
deuteron-rms-charge-radius: Public ordinary functions

E
electric-constant: Public ordinary functions
electric-constant: Public ordinary functions
electron-charge-to-mass-quotient: Public ordinary functions
electron-charge-to-mass-quotient: Public ordinary functions
electron-charge-to-mass-quotient: Public ordinary functions
electron-deuteron-magnetic-moment-ratio: Public ordinary functions
electron-deuteron-magnetic-moment-ratio: Public ordinary functions
electron-deuteron-magnetic-moment-ratio: Public ordinary functions
electron-deuteron-mass-ratio: Public ordinary functions
electron-deuteron-mass-ratio: Public ordinary functions
electron-deuteron-mass-ratio: Public ordinary functions
electron-g-factor: Public ordinary functions
electron-g-factor: Public ordinary functions
electron-g-factor: Public ordinary functions
electron-gyromagnetic-ratio: Public ordinary functions
electron-gyromagnetic-ratio: Public ordinary functions
electron-gyromagnetic-ratio: Public ordinary functions
electron-gyromagnetic-ratio-in-mhz/t: Public ordinary functions
electron-gyromagnetic-ratio-over-2-pi: Public ordinary functions
electron-gyromagnetic-ratio-over-2-pi: Public ordinary functions
electron-helion-mass-ratio: Public ordinary functions
electron-helion-mass-ratio: Public ordinary functions
electron-helion-mass-ratio: Public ordinary functions
electron-magnetic-moment: Public ordinary functions
electron-magnetic-moment: Public ordinary functions
electron-magnetic-moment: Public ordinary functions
electron-magnetic-moment-anomaly: Public ordinary functions
electron-magnetic-moment-anomaly: Public ordinary functions
electron-magnetic-moment-anomaly: Public ordinary functions
electron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
electron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
electron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
electron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
electron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
electron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
electron-mass: Public ordinary functions
electron-mass: Public ordinary functions
electron-mass: Public ordinary functions
electron-mass-energy-equivalent: Public ordinary functions
electron-mass-energy-equivalent: Public ordinary functions
electron-mass-energy-equivalent: Public ordinary functions
electron-mass-energy-equivalent-in-mev: Public ordinary functions
electron-mass-energy-equivalent-in-mev: Public ordinary functions
electron-mass-energy-equivalent-in-mev: Public ordinary functions
electron-mass-in-u: Public ordinary functions
electron-mass-in-u: Public ordinary functions
electron-mass-in-u: Public ordinary functions
electron-molar-mass: Public ordinary functions
electron-molar-mass: Public ordinary functions
electron-molar-mass: Public ordinary functions
electron-muon-magnetic-moment-ratio: Public ordinary functions
electron-muon-magnetic-moment-ratio: Public ordinary functions
electron-muon-magnetic-moment-ratio: Public ordinary functions
electron-muon-mass-ratio: Public ordinary functions
electron-muon-mass-ratio: Public ordinary functions
electron-muon-mass-ratio: Public ordinary functions
electron-neutron-magnetic-moment-ratio: Public ordinary functions
electron-neutron-magnetic-moment-ratio: Public ordinary functions
electron-neutron-magnetic-moment-ratio: Public ordinary functions
electron-neutron-mass-ratio: Public ordinary functions
electron-neutron-mass-ratio: Public ordinary functions
electron-neutron-mass-ratio: Public ordinary functions
electron-proton-magnetic-moment-ratio: Public ordinary functions
electron-proton-magnetic-moment-ratio: Public ordinary functions
electron-proton-magnetic-moment-ratio: Public ordinary functions
electron-proton-mass-ratio: Public ordinary functions
electron-proton-mass-ratio: Public ordinary functions
electron-proton-mass-ratio: Public ordinary functions
electron-relative-atomic-mass: Public ordinary functions
electron-tau-mass-ratio: Public ordinary functions
electron-tau-mass-ratio: Public ordinary functions
electron-tau-mass-ratio: Public ordinary functions
electron-to-alpha-particle-mass-ratio: Public ordinary functions
electron-to-alpha-particle-mass-ratio: Public ordinary functions
electron-to-alpha-particle-mass-ratio: Public ordinary functions
electron-to-shielded-helion-magnetic-moment-ratio: Public ordinary functions
electron-to-shielded-helion-magnetic-moment-ratio: Public ordinary functions
electron-to-shielded-helion-magnetic-moment-ratio: Public ordinary functions
electron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
electron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
electron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
electron-triton-mass-ratio: Public ordinary functions
electron-triton-mass-ratio: Public ordinary functions
electron-triton-mass-ratio: Public ordinary functions
electron-volt: Public ordinary functions
electron-volt: Public ordinary functions
electron-volt: Public ordinary functions
electron-volt-atomic-mass-unit-relationship: Public ordinary functions
electron-volt-atomic-mass-unit-relationship: Public ordinary functions
electron-volt-atomic-mass-unit-relationship: Public ordinary functions
electron-volt-hartree-relationship: Public ordinary functions
electron-volt-hartree-relationship: Public ordinary functions
electron-volt-hartree-relationship: Public ordinary functions
electron-volt-hertz-relationship: Public ordinary functions
electron-volt-hertz-relationship: Public ordinary functions
electron-volt-hertz-relationship: Public ordinary functions
electron-volt-inverse-meter-relationship: Public ordinary functions
electron-volt-inverse-meter-relationship: Public ordinary functions
electron-volt-inverse-meter-relationship: Public ordinary functions
electron-volt-joule-relationship: Public ordinary functions
electron-volt-joule-relationship: Public ordinary functions
electron-volt-joule-relationship: Public ordinary functions
electron-volt-kelvin-relationship: Public ordinary functions
electron-volt-kelvin-relationship: Public ordinary functions
electron-volt-kelvin-relationship: Public ordinary functions
electron-volt-kilogram-relationship: Public ordinary functions
electron-volt-kilogram-relationship: Public ordinary functions
electron-volt-kilogram-relationship: Public ordinary functions
elementary-charge: Public ordinary functions
elementary-charge: Public ordinary functions
elementary-charge: Public ordinary functions
elementary-charge-over-h: Public ordinary functions
elementary-charge-over-h: Public ordinary functions
elementary-charge-over-h-bar: Public ordinary functions

F
faraday-constant: Public ordinary functions
faraday-constant: Public ordinary functions
faraday-constant: Public ordinary functions
faraday-constant-for-conventional-electric-current: Public ordinary functions
faraday-constant-for-conventional-electric-current: Public ordinary functions
fermi-coupling-constant: Public ordinary functions
fermi-coupling-constant: Public ordinary functions
fermi-coupling-constant: Public ordinary functions
fine-structure-constant: Public ordinary functions
fine-structure-constant: Public ordinary functions
fine-structure-constant: Public ordinary functions
first-radiation-constant: Public ordinary functions
first-radiation-constant: Public ordinary functions
first-radiation-constant: Public ordinary functions
first-radiation-constant-for-spectral-radiance: Public ordinary functions
first-radiation-constant-for-spectral-radiance: Public ordinary functions
first-radiation-constant-for-spectral-radiance: Public ordinary functions
Function, 220-lattice-spacing-of-silicon: Public ordinary functions
Function, 220-lattice-spacing-of-silicon: Public ordinary functions
Function, alpha-particle-electron-mass-ratio: Public ordinary functions
Function, alpha-particle-electron-mass-ratio: Public ordinary functions
Function, alpha-particle-electron-mass-ratio: Public ordinary functions
Function, alpha-particle-mass: Public ordinary functions
Function, alpha-particle-mass: Public ordinary functions
Function, alpha-particle-mass: Public ordinary functions
Function, alpha-particle-mass-energy-equivalent: Public ordinary functions
Function, alpha-particle-mass-energy-equivalent: Public ordinary functions
Function, alpha-particle-mass-energy-equivalent: Public ordinary functions
Function, alpha-particle-mass-energy-equivalent-in-mev: Public ordinary functions
Function, alpha-particle-mass-energy-equivalent-in-mev: Public ordinary functions
Function, alpha-particle-mass-energy-equivalent-in-mev: Public ordinary functions
Function, alpha-particle-mass-in-u: Public ordinary functions
Function, alpha-particle-mass-in-u: Public ordinary functions
Function, alpha-particle-mass-in-u: Public ordinary functions
Function, alpha-particle-molar-mass: Public ordinary functions
Function, alpha-particle-molar-mass: Public ordinary functions
Function, alpha-particle-molar-mass: Public ordinary functions
Function, alpha-particle-proton-mass-ratio: Public ordinary functions
Function, alpha-particle-proton-mass-ratio: Public ordinary functions
Function, alpha-particle-proton-mass-ratio: Public ordinary functions
Function, alpha-particle-relative-atomic-mass: Public ordinary functions
Function, angstrom-star: Public ordinary functions
Function, angstrom-star: Public ordinary functions
Function, angstrom-star: Public ordinary functions
Function, atomic-mass-constant: Public ordinary functions
Function, atomic-mass-constant: Public ordinary functions
Function, atomic-mass-constant: Public ordinary functions
Function, atomic-mass-constant-energy-equivalent: Public ordinary functions
Function, atomic-mass-constant-energy-equivalent: Public ordinary functions
Function, atomic-mass-constant-energy-equivalent: Public ordinary functions
Function, atomic-mass-constant-energy-equivalent-in-mev: Public ordinary functions
Function, atomic-mass-constant-energy-equivalent-in-mev: Public ordinary functions
Function, atomic-mass-constant-energy-equivalent-in-mev: Public ordinary functions
Function, atomic-mass-unit-electron-volt-relationship: Public ordinary functions
Function, atomic-mass-unit-electron-volt-relationship: Public ordinary functions
Function, atomic-mass-unit-electron-volt-relationship: Public ordinary functions
Function, atomic-mass-unit-hartree-relationship: Public ordinary functions
Function, atomic-mass-unit-hartree-relationship: Public ordinary functions
Function, atomic-mass-unit-hartree-relationship: Public ordinary functions
Function, atomic-mass-unit-hertz-relationship: Public ordinary functions
Function, atomic-mass-unit-hertz-relationship: Public ordinary functions
Function, atomic-mass-unit-hertz-relationship: Public ordinary functions
Function, atomic-mass-unit-inverse-meter-relationship: Public ordinary functions
Function, atomic-mass-unit-inverse-meter-relationship: Public ordinary functions
Function, atomic-mass-unit-inverse-meter-relationship: Public ordinary functions
Function, atomic-mass-unit-joule-relationship: Public ordinary functions
Function, atomic-mass-unit-joule-relationship: Public ordinary functions
Function, atomic-mass-unit-joule-relationship: Public ordinary functions
Function, atomic-mass-unit-kelvin-relationship: Public ordinary functions
Function, atomic-mass-unit-kelvin-relationship: Public ordinary functions
Function, atomic-mass-unit-kelvin-relationship: Public ordinary functions
Function, atomic-mass-unit-kilogram-relationship: Public ordinary functions
Function, atomic-mass-unit-kilogram-relationship: Public ordinary functions
Function, atomic-mass-unit-kilogram-relationship: Public ordinary functions
Function, atomic-unit-of-action: Public ordinary functions
Function, atomic-unit-of-action: Public ordinary functions
Function, atomic-unit-of-action: Public ordinary functions
Function, atomic-unit-of-charge: Public ordinary functions
Function, atomic-unit-of-charge: Public ordinary functions
Function, atomic-unit-of-charge: Public ordinary functions
Function, atomic-unit-of-charge-density: Public ordinary functions
Function, atomic-unit-of-charge-density: Public ordinary functions
Function, atomic-unit-of-charge-density: Public ordinary functions
Function, atomic-unit-of-current: Public ordinary functions
Function, atomic-unit-of-current: Public ordinary functions
Function, atomic-unit-of-current: Public ordinary functions
Function, atomic-unit-of-electric-dipole-moment: Public ordinary functions
Function, atomic-unit-of-electric-dipole-moment: Public ordinary functions
Function, atomic-unit-of-electric-dipole-moment: Public ordinary functions
Function, atomic-unit-of-electric-field: Public ordinary functions
Function, atomic-unit-of-electric-field: Public ordinary functions
Function, atomic-unit-of-electric-field: Public ordinary functions
Function, atomic-unit-of-electric-field-gradient: Public ordinary functions
Function, atomic-unit-of-electric-field-gradient: Public ordinary functions
Function, atomic-unit-of-electric-field-gradient: Public ordinary functions
Function, atomic-unit-of-electric-polarizability: Public ordinary functions
Function, atomic-unit-of-electric-polarizability: Public ordinary functions
Function, atomic-unit-of-electric-polarizability: Public ordinary functions
Function, atomic-unit-of-electric-potential: Public ordinary functions
Function, atomic-unit-of-electric-potential: Public ordinary functions
Function, atomic-unit-of-electric-potential: Public ordinary functions
Function, atomic-unit-of-electric-quadrupole-moment: Public ordinary functions
Function, atomic-unit-of-electric-quadrupole-moment: Public ordinary functions
Function, atomic-unit-of-electric-quadrupole-moment: Public ordinary functions
Function, atomic-unit-of-energy: Public ordinary functions
Function, atomic-unit-of-energy: Public ordinary functions
Function, atomic-unit-of-energy: Public ordinary functions
Function, atomic-unit-of-first-hyperpolarizability: Public ordinary functions
Function, atomic-unit-of-first-hyperpolarizability: Public ordinary functions
Function, atomic-unit-of-first-hyperpolarizability: Public ordinary functions
Function, atomic-unit-of-force: Public ordinary functions
Function, atomic-unit-of-force: Public ordinary functions
Function, atomic-unit-of-force: Public ordinary functions
Function, atomic-unit-of-length: Public ordinary functions
Function, atomic-unit-of-length: Public ordinary functions
Function, atomic-unit-of-length: Public ordinary functions
Function, atomic-unit-of-magnetic-dipole-moment: Public ordinary functions
Function, atomic-unit-of-magnetic-dipole-moment: Public ordinary functions
Function, atomic-unit-of-magnetic-dipole-moment: Public ordinary functions
Function, atomic-unit-of-magnetic-flux-density: Public ordinary functions
Function, atomic-unit-of-magnetic-flux-density: Public ordinary functions
Function, atomic-unit-of-magnetic-flux-density: Public ordinary functions
Function, atomic-unit-of-magnetizability: Public ordinary functions
Function, atomic-unit-of-magnetizability: Public ordinary functions
Function, atomic-unit-of-magnetizability: Public ordinary functions
Function, atomic-unit-of-mass: Public ordinary functions
Function, atomic-unit-of-mass: Public ordinary functions
Function, atomic-unit-of-mass: Public ordinary functions
Function, atomic-unit-of-momentum: Public ordinary functions
Function, atomic-unit-of-momentum: Public ordinary functions
Function, atomic-unit-of-momentum: Public ordinary functions
Function, atomic-unit-of-permittivity: Public ordinary functions
Function, atomic-unit-of-permittivity: Public ordinary functions
Function, atomic-unit-of-permittivity: Public ordinary functions
Function, atomic-unit-of-second-hyperpolarizability: Public ordinary functions
Function, atomic-unit-of-second-hyperpolarizability: Public ordinary functions
Function, atomic-unit-of-second-hyperpolarizability: Public ordinary functions
Function, atomic-unit-of-time: Public ordinary functions
Function, atomic-unit-of-time: Public ordinary functions
Function, atomic-unit-of-time: Public ordinary functions
Function, atomic-unit-of-velocity: Public ordinary functions
Function, atomic-unit-of-velocity: Public ordinary functions
Function, atomic-unit-of-velocity: Public ordinary functions
Function, avogadro-constant: Public ordinary functions
Function, avogadro-constant: Public ordinary functions
Function, avogadro-constant: Public ordinary functions
Function, bohr-magneton: Public ordinary functions
Function, bohr-magneton: Public ordinary functions
Function, bohr-magneton: Public ordinary functions
Function, bohr-magneton-in-ev/t: Public ordinary functions
Function, bohr-magneton-in-ev/t: Public ordinary functions
Function, bohr-magneton-in-ev/t: Public ordinary functions
Function, bohr-magneton-in-hz/t: Public ordinary functions
Function, bohr-magneton-in-hz/t: Public ordinary functions
Function, bohr-magneton-in-hz/t: Public ordinary functions
Function, bohr-magneton-in-inverse-meter-per-tesla: Public ordinary functions
Function, bohr-magneton-in-inverse-meters-per-tesla: Public ordinary functions
Function, bohr-magneton-in-inverse-meters-per-tesla: Public ordinary functions
Function, bohr-magneton-in-k/t: Public ordinary functions
Function, bohr-magneton-in-k/t: Public ordinary functions
Function, bohr-magneton-in-k/t: Public ordinary functions
Function, bohr-radius: Public ordinary functions
Function, bohr-radius: Public ordinary functions
Function, bohr-radius: Public ordinary functions
Function, boltzmann-constant: Public ordinary functions
Function, boltzmann-constant: Public ordinary functions
Function, boltzmann-constant: Public ordinary functions
Function, boltzmann-constant-in-ev/k: Public ordinary functions
Function, boltzmann-constant-in-ev/k: Public ordinary functions
Function, boltzmann-constant-in-ev/k: Public ordinary functions
Function, boltzmann-constant-in-hz/k: Public ordinary functions
Function, boltzmann-constant-in-hz/k: Public ordinary functions
Function, boltzmann-constant-in-hz/k: Public ordinary functions
Function, boltzmann-constant-in-inverse-meter-per-kelvin: Public ordinary functions
Function, boltzmann-constant-in-inverse-meters-per-kelvin: Public ordinary functions
Function, boltzmann-constant-in-inverse-meters-per-kelvin: Public ordinary functions
Function, characteristic-impedance-of-vacuum: Public ordinary functions
Function, characteristic-impedance-of-vacuum: Public ordinary functions
Function, characteristic-impedance-of-vacuum: Public ordinary functions
Function, classical-electron-radius: Public ordinary functions
Function, classical-electron-radius: Public ordinary functions
Function, classical-electron-radius: Public ordinary functions
Function, compton-wavelength: Public ordinary functions
Function, compton-wavelength: Public ordinary functions
Function, compton-wavelength: Public ordinary functions
Function, compton-wavelength-over-2-pi: Public ordinary functions
Function, compton-wavelength-over-2-pi: Public ordinary functions
Function, conductance-quantum: Public ordinary functions
Function, conductance-quantum: Public ordinary functions
Function, conductance-quantum: Public ordinary functions
Function, conventional-value-of-ampere-90: Public ordinary functions
Function, conventional-value-of-coulomb-90: Public ordinary functions
Function, conventional-value-of-farad-90: Public ordinary functions
Function, conventional-value-of-henry-90: Public ordinary functions
Function, conventional-value-of-josephson-constant: Public ordinary functions
Function, conventional-value-of-josephson-constant: Public ordinary functions
Function, conventional-value-of-josephson-constant: Public ordinary functions
Function, conventional-value-of-ohm-90: Public ordinary functions
Function, conventional-value-of-volt-90: Public ordinary functions
Function, conventional-value-of-von-klitzing-constant: Public ordinary functions
Function, conventional-value-of-von-klitzing-constant: Public ordinary functions
Function, conventional-value-of-von-klitzing-constant: Public ordinary functions
Function, conventional-value-of-watt-90: Public ordinary functions
Function, copper-x-unit: Public ordinary functions
Function, cu-x-unit: Public ordinary functions
Function, cu-x-unit: Public ordinary functions
Function, deuteron-electron-magnetic-moment-ratio: Public ordinary functions
Function, deuteron-electron-magnetic-moment-ratio: Public ordinary functions
Function, deuteron-electron-magnetic-moment-ratio: Public ordinary functions
Function, deuteron-electron-mass-ratio: Public ordinary functions
Function, deuteron-electron-mass-ratio: Public ordinary functions
Function, deuteron-electron-mass-ratio: Public ordinary functions
Function, deuteron-g-factor: Public ordinary functions
Function, deuteron-g-factor: Public ordinary functions
Function, deuteron-g-factor: Public ordinary functions
Function, deuteron-magnetic-moment: Public ordinary functions
Function, deuteron-magnetic-moment: Public ordinary functions
Function, deuteron-magnetic-moment: Public ordinary functions
Function, deuteron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, deuteron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, deuteron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, deuteron-mass: Public ordinary functions
Function, deuteron-mass: Public ordinary functions
Function, deuteron-mass: Public ordinary functions
Function, deuteron-mass-energy-equivalent: Public ordinary functions
Function, deuteron-mass-energy-equivalent: Public ordinary functions
Function, deuteron-mass-energy-equivalent: Public ordinary functions
Function, deuteron-mass-energy-equivalent-in-mev: Public ordinary functions
Function, deuteron-mass-energy-equivalent-in-mev: Public ordinary functions
Function, deuteron-mass-energy-equivalent-in-mev: Public ordinary functions
Function, deuteron-mass-in-u: Public ordinary functions
Function, deuteron-mass-in-u: Public ordinary functions
Function, deuteron-mass-in-u: Public ordinary functions
Function, deuteron-molar-mass: Public ordinary functions
Function, deuteron-molar-mass: Public ordinary functions
Function, deuteron-molar-mass: Public ordinary functions
Function, deuteron-neutron-magnetic-moment-ratio: Public ordinary functions
Function, deuteron-neutron-magnetic-moment-ratio: Public ordinary functions
Function, deuteron-neutron-magnetic-moment-ratio: Public ordinary functions
Function, deuteron-proton-magnetic-moment-ratio: Public ordinary functions
Function, deuteron-proton-magnetic-moment-ratio: Public ordinary functions
Function, deuteron-proton-magnetic-moment-ratio: Public ordinary functions
Function, deuteron-proton-mass-ratio: Public ordinary functions
Function, deuteron-proton-mass-ratio: Public ordinary functions
Function, deuteron-proton-mass-ratio: Public ordinary functions
Function, deuteron-relative-atomic-mass: Public ordinary functions
Function, deuteron-rms-charge-radius: Public ordinary functions
Function, deuteron-rms-charge-radius: Public ordinary functions
Function, deuteron-rms-charge-radius: Public ordinary functions
Function, electric-constant: Public ordinary functions
Function, electric-constant: Public ordinary functions
Function, electron-charge-to-mass-quotient: Public ordinary functions
Function, electron-charge-to-mass-quotient: Public ordinary functions
Function, electron-charge-to-mass-quotient: Public ordinary functions
Function, electron-deuteron-magnetic-moment-ratio: Public ordinary functions
Function, electron-deuteron-magnetic-moment-ratio: Public ordinary functions
Function, electron-deuteron-magnetic-moment-ratio: Public ordinary functions
Function, electron-deuteron-mass-ratio: Public ordinary functions
Function, electron-deuteron-mass-ratio: Public ordinary functions
Function, electron-deuteron-mass-ratio: Public ordinary functions
Function, electron-g-factor: Public ordinary functions
Function, electron-g-factor: Public ordinary functions
Function, electron-g-factor: Public ordinary functions
Function, electron-gyromagnetic-ratio: Public ordinary functions
Function, electron-gyromagnetic-ratio: Public ordinary functions
Function, electron-gyromagnetic-ratio: Public ordinary functions
Function, electron-gyromagnetic-ratio-in-mhz/t: Public ordinary functions
Function, electron-gyromagnetic-ratio-over-2-pi: Public ordinary functions
Function, electron-gyromagnetic-ratio-over-2-pi: Public ordinary functions
Function, electron-helion-mass-ratio: Public ordinary functions
Function, electron-helion-mass-ratio: Public ordinary functions
Function, electron-helion-mass-ratio: Public ordinary functions
Function, electron-magnetic-moment: Public ordinary functions
Function, electron-magnetic-moment: Public ordinary functions
Function, electron-magnetic-moment: Public ordinary functions
Function, electron-magnetic-moment-anomaly: Public ordinary functions
Function, electron-magnetic-moment-anomaly: Public ordinary functions
Function, electron-magnetic-moment-anomaly: Public ordinary functions
Function, electron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, electron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, electron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, electron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, electron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, electron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, electron-mass: Public ordinary functions
Function, electron-mass: Public ordinary functions
Function, electron-mass: Public ordinary functions
Function, electron-mass-energy-equivalent: Public ordinary functions
Function, electron-mass-energy-equivalent: Public ordinary functions
Function, electron-mass-energy-equivalent: Public ordinary functions
Function, electron-mass-energy-equivalent-in-mev: Public ordinary functions
Function, electron-mass-energy-equivalent-in-mev: Public ordinary functions
Function, electron-mass-energy-equivalent-in-mev: Public ordinary functions
Function, electron-mass-in-u: Public ordinary functions
Function, electron-mass-in-u: Public ordinary functions
Function, electron-mass-in-u: Public ordinary functions
Function, electron-molar-mass: Public ordinary functions
Function, electron-molar-mass: Public ordinary functions
Function, electron-molar-mass: Public ordinary functions
Function, electron-muon-magnetic-moment-ratio: Public ordinary functions
Function, electron-muon-magnetic-moment-ratio: Public ordinary functions
Function, electron-muon-magnetic-moment-ratio: Public ordinary functions
Function, electron-muon-mass-ratio: Public ordinary functions
Function, electron-muon-mass-ratio: Public ordinary functions
Function, electron-muon-mass-ratio: Public ordinary functions
Function, electron-neutron-magnetic-moment-ratio: Public ordinary functions
Function, electron-neutron-magnetic-moment-ratio: Public ordinary functions
Function, electron-neutron-magnetic-moment-ratio: Public ordinary functions
Function, electron-neutron-mass-ratio: Public ordinary functions
Function, electron-neutron-mass-ratio: Public ordinary functions
Function, electron-neutron-mass-ratio: Public ordinary functions
Function, electron-proton-magnetic-moment-ratio: Public ordinary functions
Function, electron-proton-magnetic-moment-ratio: Public ordinary functions
Function, electron-proton-magnetic-moment-ratio: Public ordinary functions
Function, electron-proton-mass-ratio: Public ordinary functions
Function, electron-proton-mass-ratio: Public ordinary functions
Function, electron-proton-mass-ratio: Public ordinary functions
Function, electron-relative-atomic-mass: Public ordinary functions
Function, electron-tau-mass-ratio: Public ordinary functions
Function, electron-tau-mass-ratio: Public ordinary functions
Function, electron-tau-mass-ratio: Public ordinary functions
Function, electron-to-alpha-particle-mass-ratio: Public ordinary functions
Function, electron-to-alpha-particle-mass-ratio: Public ordinary functions
Function, electron-to-alpha-particle-mass-ratio: Public ordinary functions
Function, electron-to-shielded-helion-magnetic-moment-ratio: Public ordinary functions
Function, electron-to-shielded-helion-magnetic-moment-ratio: Public ordinary functions
Function, electron-to-shielded-helion-magnetic-moment-ratio: Public ordinary functions
Function, electron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
Function, electron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
Function, electron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
Function, electron-triton-mass-ratio: Public ordinary functions
Function, electron-triton-mass-ratio: Public ordinary functions
Function, electron-triton-mass-ratio: Public ordinary functions
Function, electron-volt: Public ordinary functions
Function, electron-volt: Public ordinary functions
Function, electron-volt: Public ordinary functions
Function, electron-volt-atomic-mass-unit-relationship: Public ordinary functions
Function, electron-volt-atomic-mass-unit-relationship: Public ordinary functions
Function, electron-volt-atomic-mass-unit-relationship: Public ordinary functions
Function, electron-volt-hartree-relationship: Public ordinary functions
Function, electron-volt-hartree-relationship: Public ordinary functions
Function, electron-volt-hartree-relationship: Public ordinary functions
Function, electron-volt-hertz-relationship: Public ordinary functions
Function, electron-volt-hertz-relationship: Public ordinary functions
Function, electron-volt-hertz-relationship: Public ordinary functions
Function, electron-volt-inverse-meter-relationship: Public ordinary functions
Function, electron-volt-inverse-meter-relationship: Public ordinary functions
Function, electron-volt-inverse-meter-relationship: Public ordinary functions
Function, electron-volt-joule-relationship: Public ordinary functions
Function, electron-volt-joule-relationship: Public ordinary functions
Function, electron-volt-joule-relationship: Public ordinary functions
Function, electron-volt-kelvin-relationship: Public ordinary functions
Function, electron-volt-kelvin-relationship: Public ordinary functions
Function, electron-volt-kelvin-relationship: Public ordinary functions
Function, electron-volt-kilogram-relationship: Public ordinary functions
Function, electron-volt-kilogram-relationship: Public ordinary functions
Function, electron-volt-kilogram-relationship: Public ordinary functions
Function, elementary-charge: Public ordinary functions
Function, elementary-charge: Public ordinary functions
Function, elementary-charge: Public ordinary functions
Function, elementary-charge-over-h: Public ordinary functions
Function, elementary-charge-over-h: Public ordinary functions
Function, elementary-charge-over-h-bar: Public ordinary functions
Function, faraday-constant: Public ordinary functions
Function, faraday-constant: Public ordinary functions
Function, faraday-constant: Public ordinary functions
Function, faraday-constant-for-conventional-electric-current: Public ordinary functions
Function, faraday-constant-for-conventional-electric-current: Public ordinary functions
Function, fermi-coupling-constant: Public ordinary functions
Function, fermi-coupling-constant: Public ordinary functions
Function, fermi-coupling-constant: Public ordinary functions
Function, fine-structure-constant: Public ordinary functions
Function, fine-structure-constant: Public ordinary functions
Function, fine-structure-constant: Public ordinary functions
Function, first-radiation-constant: Public ordinary functions
Function, first-radiation-constant: Public ordinary functions
Function, first-radiation-constant: Public ordinary functions
Function, first-radiation-constant-for-spectral-radiance: Public ordinary functions
Function, first-radiation-constant-for-spectral-radiance: Public ordinary functions
Function, first-radiation-constant-for-spectral-radiance: Public ordinary functions
Function, hartree-atomic-mass-unit-relationship: Public ordinary functions
Function, hartree-atomic-mass-unit-relationship: Public ordinary functions
Function, hartree-atomic-mass-unit-relationship: Public ordinary functions
Function, hartree-electron-volt-relationship: Public ordinary functions
Function, hartree-electron-volt-relationship: Public ordinary functions
Function, hartree-electron-volt-relationship: Public ordinary functions
Function, hartree-energy: Public ordinary functions
Function, hartree-energy: Public ordinary functions
Function, hartree-energy: Public ordinary functions
Function, hartree-energy-in-ev: Public ordinary functions
Function, hartree-energy-in-ev: Public ordinary functions
Function, hartree-energy-in-ev: Public ordinary functions
Function, hartree-hertz-relationship: Public ordinary functions
Function, hartree-hertz-relationship: Public ordinary functions
Function, hartree-hertz-relationship: Public ordinary functions
Function, hartree-inverse-meter-relationship: Public ordinary functions
Function, hartree-inverse-meter-relationship: Public ordinary functions
Function, hartree-inverse-meter-relationship: Public ordinary functions
Function, hartree-joule-relationship: Public ordinary functions
Function, hartree-joule-relationship: Public ordinary functions
Function, hartree-joule-relationship: Public ordinary functions
Function, hartree-kelvin-relationship: Public ordinary functions
Function, hartree-kelvin-relationship: Public ordinary functions
Function, hartree-kelvin-relationship: Public ordinary functions
Function, hartree-kilogram-relationship: Public ordinary functions
Function, hartree-kilogram-relationship: Public ordinary functions
Function, hartree-kilogram-relationship: Public ordinary functions
Function, helion-electron-mass-ratio: Public ordinary functions
Function, helion-electron-mass-ratio: Public ordinary functions
Function, helion-electron-mass-ratio: Public ordinary functions
Function, helion-g-factor: Public ordinary functions
Function, helion-g-factor: Public ordinary functions
Function, helion-g-factor: Public ordinary functions
Function, helion-magnetic-moment: Public ordinary functions
Function, helion-magnetic-moment: Public ordinary functions
Function, helion-magnetic-moment: Public ordinary functions
Function, helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, helion-mass: Public ordinary functions
Function, helion-mass: Public ordinary functions
Function, helion-mass: Public ordinary functions
Function, helion-mass-energy-equivalent: Public ordinary functions
Function, helion-mass-energy-equivalent: Public ordinary functions
Function, helion-mass-energy-equivalent: Public ordinary functions
Function, helion-mass-energy-equivalent-in-mev: Public ordinary functions
Function, helion-mass-energy-equivalent-in-mev: Public ordinary functions
Function, helion-mass-energy-equivalent-in-mev: Public ordinary functions
Function, helion-mass-in-u: Public ordinary functions
Function, helion-mass-in-u: Public ordinary functions
Function, helion-mass-in-u: Public ordinary functions
Function, helion-molar-mass: Public ordinary functions
Function, helion-molar-mass: Public ordinary functions
Function, helion-molar-mass: Public ordinary functions
Function, helion-proton-mass-ratio: Public ordinary functions
Function, helion-proton-mass-ratio: Public ordinary functions
Function, helion-proton-mass-ratio: Public ordinary functions
Function, helion-relative-atomic-mass: Public ordinary functions
Function, helion-shielding-shift: Public ordinary functions
Function, hertz-atomic-mass-unit-relationship: Public ordinary functions
Function, hertz-atomic-mass-unit-relationship: Public ordinary functions
Function, hertz-atomic-mass-unit-relationship: Public ordinary functions
Function, hertz-electron-volt-relationship: Public ordinary functions
Function, hertz-electron-volt-relationship: Public ordinary functions
Function, hertz-electron-volt-relationship: Public ordinary functions
Function, hertz-hartree-relationship: Public ordinary functions
Function, hertz-hartree-relationship: Public ordinary functions
Function, hertz-hartree-relationship: Public ordinary functions
Function, hertz-inverse-meter-relationship: Public ordinary functions
Function, hertz-inverse-meter-relationship: Public ordinary functions
Function, hertz-inverse-meter-relationship: Public ordinary functions
Function, hertz-joule-relationship: Public ordinary functions
Function, hertz-joule-relationship: Public ordinary functions
Function, hertz-joule-relationship: Public ordinary functions
Function, hertz-kelvin-relationship: Public ordinary functions
Function, hertz-kelvin-relationship: Public ordinary functions
Function, hertz-kelvin-relationship: Public ordinary functions
Function, hertz-kilogram-relationship: Public ordinary functions
Function, hertz-kilogram-relationship: Public ordinary functions
Function, hertz-kilogram-relationship: Public ordinary functions
Function, hyperfine-transition-frequency-of-caesium-133: Public ordinary functions
Function, inverse-fine-structure-constant: Public ordinary functions
Function, inverse-fine-structure-constant: Public ordinary functions
Function, inverse-fine-structure-constant: Public ordinary functions
Function, inverse-meter-atomic-mass-unit-relationship: Public ordinary functions
Function, inverse-meter-atomic-mass-unit-relationship: Public ordinary functions
Function, inverse-meter-atomic-mass-unit-relationship: Public ordinary functions
Function, inverse-meter-electron-volt-relationship: Public ordinary functions
Function, inverse-meter-electron-volt-relationship: Public ordinary functions
Function, inverse-meter-electron-volt-relationship: Public ordinary functions
Function, inverse-meter-hartree-relationship: Public ordinary functions
Function, inverse-meter-hartree-relationship: Public ordinary functions
Function, inverse-meter-hartree-relationship: Public ordinary functions
Function, inverse-meter-hertz-relationship: Public ordinary functions
Function, inverse-meter-hertz-relationship: Public ordinary functions
Function, inverse-meter-hertz-relationship: Public ordinary functions
Function, inverse-meter-joule-relationship: Public ordinary functions
Function, inverse-meter-joule-relationship: Public ordinary functions
Function, inverse-meter-joule-relationship: Public ordinary functions
Function, inverse-meter-kelvin-relationship: Public ordinary functions
Function, inverse-meter-kelvin-relationship: Public ordinary functions
Function, inverse-meter-kelvin-relationship: Public ordinary functions
Function, inverse-meter-kilogram-relationship: Public ordinary functions
Function, inverse-meter-kilogram-relationship: Public ordinary functions
Function, inverse-meter-kilogram-relationship: Public ordinary functions
Function, inverse-of-conductance-quantum: Public ordinary functions
Function, inverse-of-conductance-quantum: Public ordinary functions
Function, inverse-of-conductance-quantum: Public ordinary functions
Function, josephson-constant: Public ordinary functions
Function, josephson-constant: Public ordinary functions
Function, josephson-constant: Public ordinary functions
Function, joule-atomic-mass-unit-relationship: Public ordinary functions
Function, joule-atomic-mass-unit-relationship: Public ordinary functions
Function, joule-atomic-mass-unit-relationship: Public ordinary functions
Function, joule-electron-volt-relationship: Public ordinary functions
Function, joule-electron-volt-relationship: Public ordinary functions
Function, joule-electron-volt-relationship: Public ordinary functions
Function, joule-hartree-relationship: Public ordinary functions
Function, joule-hartree-relationship: Public ordinary functions
Function, joule-hartree-relationship: Public ordinary functions
Function, joule-hertz-relationship: Public ordinary functions
Function, joule-hertz-relationship: Public ordinary functions
Function, joule-hertz-relationship: Public ordinary functions
Function, joule-inverse-meter-relationship: Public ordinary functions
Function, joule-inverse-meter-relationship: Public ordinary functions
Function, joule-inverse-meter-relationship: Public ordinary functions
Function, joule-kelvin-relationship: Public ordinary functions
Function, joule-kelvin-relationship: Public ordinary functions
Function, joule-kelvin-relationship: Public ordinary functions
Function, joule-kilogram-relationship: Public ordinary functions
Function, joule-kilogram-relationship: Public ordinary functions
Function, joule-kilogram-relationship: Public ordinary functions
Function, kelvin-atomic-mass-unit-relationship: Public ordinary functions
Function, kelvin-atomic-mass-unit-relationship: Public ordinary functions
Function, kelvin-atomic-mass-unit-relationship: Public ordinary functions
Function, kelvin-electron-volt-relationship: Public ordinary functions
Function, kelvin-electron-volt-relationship: Public ordinary functions
Function, kelvin-electron-volt-relationship: Public ordinary functions
Function, kelvin-hartree-relationship: Public ordinary functions
Function, kelvin-hartree-relationship: Public ordinary functions
Function, kelvin-hartree-relationship: Public ordinary functions
Function, kelvin-hertz-relationship: Public ordinary functions
Function, kelvin-hertz-relationship: Public ordinary functions
Function, kelvin-hertz-relationship: Public ordinary functions
Function, kelvin-inverse-meter-relationship: Public ordinary functions
Function, kelvin-inverse-meter-relationship: Public ordinary functions
Function, kelvin-inverse-meter-relationship: Public ordinary functions
Function, kelvin-joule-relationship: Public ordinary functions
Function, kelvin-joule-relationship: Public ordinary functions
Function, kelvin-joule-relationship: Public ordinary functions
Function, kelvin-kilogram-relationship: Public ordinary functions
Function, kelvin-kilogram-relationship: Public ordinary functions
Function, kelvin-kilogram-relationship: Public ordinary functions
Function, kilogram-atomic-mass-unit-relationship: Public ordinary functions
Function, kilogram-atomic-mass-unit-relationship: Public ordinary functions
Function, kilogram-atomic-mass-unit-relationship: Public ordinary functions
Function, kilogram-electron-volt-relationship: Public ordinary functions
Function, kilogram-electron-volt-relationship: Public ordinary functions
Function, kilogram-electron-volt-relationship: Public ordinary functions
Function, kilogram-hartree-relationship: Public ordinary functions
Function, kilogram-hartree-relationship: Public ordinary functions
Function, kilogram-hartree-relationship: Public ordinary functions
Function, kilogram-hertz-relationship: Public ordinary functions
Function, kilogram-hertz-relationship: Public ordinary functions
Function, kilogram-hertz-relationship: Public ordinary functions
Function, kilogram-inverse-meter-relationship: Public ordinary functions
Function, kilogram-inverse-meter-relationship: Public ordinary functions
Function, kilogram-inverse-meter-relationship: Public ordinary functions
Function, kilogram-joule-relationship: Public ordinary functions
Function, kilogram-joule-relationship: Public ordinary functions
Function, kilogram-joule-relationship: Public ordinary functions
Function, kilogram-kelvin-relationship: Public ordinary functions
Function, kilogram-kelvin-relationship: Public ordinary functions
Function, kilogram-kelvin-relationship: Public ordinary functions
Function, lattice-parameter-of-silicon: Public ordinary functions
Function, lattice-parameter-of-silicon: Public ordinary functions
Function, lattice-parameter-of-silicon: Public ordinary functions
Function, lattice-spacing-of-ideal-silicon-at-220: Public ordinary functions
Function, loschmidt-constant-at-273.15k-and-100000pa: Public ordinary functions
Function, loschmidt-constant-at-273.15k-and-100000pa: Public ordinary functions
Function, loschmidt-constant-at-273.15k-and-100000pa: Public ordinary functions
Function, loschmidt-constant-at-273.15k-and-101325pa: Public ordinary functions
Function, loschmidt-constant-at-273.15k-and-101325pa: Public ordinary functions
Function, loschmidt-constant-at-273.15k-and-101325pa: Public ordinary functions
Function, luminous-efficacy: Public ordinary functions
Function, magnetic-constant: Public ordinary functions
Function, magnetic-constant: Public ordinary functions
Function, magnetic-flux-quantum: Public ordinary functions
Function, magnetic-flux-quantum: Public ordinary functions
Function, magnetic-flux-quantum: Public ordinary functions
Function, mo-x-unit: Public ordinary functions
Function, mo-x-unit: Public ordinary functions
Function, molar-gas-constant: Public ordinary functions
Function, molar-gas-constant: Public ordinary functions
Function, molar-gas-constant: Public ordinary functions
Function, molar-mass-constant: Public ordinary functions
Function, molar-mass-constant: Public ordinary functions
Function, molar-mass-constant: Public ordinary functions
Function, molar-mass-of-carbon-12: Public ordinary functions
Function, molar-mass-of-carbon-12: Public ordinary functions
Function, molar-mass-of-carbon-12: Public ordinary functions
Function, molar-planck-constant: Public ordinary functions
Function, molar-planck-constant: Public ordinary functions
Function, molar-planck-constant: Public ordinary functions
Function, molar-planck-constant-times-c: Public ordinary functions
Function, molar-planck-constant-times-c: Public ordinary functions
Function, molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public ordinary functions
Function, molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public ordinary functions
Function, molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public ordinary functions
Function, molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public ordinary functions
Function, molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public ordinary functions
Function, molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public ordinary functions
Function, molar-volume-of-silicon: Public ordinary functions
Function, molar-volume-of-silicon: Public ordinary functions
Function, molar-volume-of-silicon: Public ordinary functions
Function, molybdenum-x-unit: Public ordinary functions
Function, muon-compton-wavelength: Public ordinary functions
Function, muon-compton-wavelength: Public ordinary functions
Function, muon-compton-wavelength: Public ordinary functions
Function, muon-compton-wavelength-over-2-pi: Public ordinary functions
Function, muon-compton-wavelength-over-2-pi: Public ordinary functions
Function, muon-electron-mass-ratio: Public ordinary functions
Function, muon-electron-mass-ratio: Public ordinary functions
Function, muon-electron-mass-ratio: Public ordinary functions
Function, muon-g-factor: Public ordinary functions
Function, muon-g-factor: Public ordinary functions
Function, muon-g-factor: Public ordinary functions
Function, muon-magnetic-moment: Public ordinary functions
Function, muon-magnetic-moment: Public ordinary functions
Function, muon-magnetic-moment: Public ordinary functions
Function, muon-magnetic-moment-anomaly: Public ordinary functions
Function, muon-magnetic-moment-anomaly: Public ordinary functions
Function, muon-magnetic-moment-anomaly: Public ordinary functions
Function, muon-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, muon-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, muon-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, muon-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, muon-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, muon-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, muon-mass: Public ordinary functions
Function, muon-mass: Public ordinary functions
Function, muon-mass: Public ordinary functions
Function, muon-mass-energy-equivalent: Public ordinary functions
Function, muon-mass-energy-equivalent: Public ordinary functions
Function, muon-mass-energy-equivalent: Public ordinary functions
Function, muon-mass-energy-equivalent-in-mev: Public ordinary functions
Function, muon-mass-energy-equivalent-in-mev: Public ordinary functions
Function, muon-mass-energy-equivalent-in-mev: Public ordinary functions
Function, muon-mass-in-u: Public ordinary functions
Function, muon-mass-in-u: Public ordinary functions
Function, muon-mass-in-u: Public ordinary functions
Function, muon-molar-mass: Public ordinary functions
Function, muon-molar-mass: Public ordinary functions
Function, muon-molar-mass: Public ordinary functions
Function, muon-neutron-mass-ratio: Public ordinary functions
Function, muon-neutron-mass-ratio: Public ordinary functions
Function, muon-neutron-mass-ratio: Public ordinary functions
Function, muon-proton-magnetic-moment-ratio: Public ordinary functions
Function, muon-proton-magnetic-moment-ratio: Public ordinary functions
Function, muon-proton-magnetic-moment-ratio: Public ordinary functions
Function, muon-proton-mass-ratio: Public ordinary functions
Function, muon-proton-mass-ratio: Public ordinary functions
Function, muon-proton-mass-ratio: Public ordinary functions
Function, muon-tau-mass-ratio: Public ordinary functions
Function, muon-tau-mass-ratio: Public ordinary functions
Function, muon-tau-mass-ratio: Public ordinary functions
Function, natural-unit-of-action: Public ordinary functions
Function, natural-unit-of-action: Public ordinary functions
Function, natural-unit-of-action: Public ordinary functions
Function, natural-unit-of-action-in-ev-s: Public ordinary functions
Function, natural-unit-of-action-in-ev-s: Public ordinary functions
Function, natural-unit-of-action-in-ev-s: Public ordinary functions
Function, natural-unit-of-energy: Public ordinary functions
Function, natural-unit-of-energy: Public ordinary functions
Function, natural-unit-of-energy: Public ordinary functions
Function, natural-unit-of-energy-in-mev: Public ordinary functions
Function, natural-unit-of-energy-in-mev: Public ordinary functions
Function, natural-unit-of-energy-in-mev: Public ordinary functions
Function, natural-unit-of-length: Public ordinary functions
Function, natural-unit-of-length: Public ordinary functions
Function, natural-unit-of-length: Public ordinary functions
Function, natural-unit-of-mass: Public ordinary functions
Function, natural-unit-of-mass: Public ordinary functions
Function, natural-unit-of-mass: Public ordinary functions
Function, natural-unit-of-momentum: Public ordinary functions
Function, natural-unit-of-momentum: Public ordinary functions
Function, natural-unit-of-momentum: Public ordinary functions
Function, natural-unit-of-momentum-in-mev/c: Public ordinary functions
Function, natural-unit-of-momentum-in-mev/c: Public ordinary functions
Function, natural-unit-of-momentum-in-mev/c: Public ordinary functions
Function, natural-unit-of-time: Public ordinary functions
Function, natural-unit-of-time: Public ordinary functions
Function, natural-unit-of-time: Public ordinary functions
Function, natural-unit-of-velocity: Public ordinary functions
Function, natural-unit-of-velocity: Public ordinary functions
Function, natural-unit-of-velocity: Public ordinary functions
Function, neutron-compton-wavelength: Public ordinary functions
Function, neutron-compton-wavelength: Public ordinary functions
Function, neutron-compton-wavelength: Public ordinary functions
Function, neutron-compton-wavelength-over-2-pi: Public ordinary functions
Function, neutron-compton-wavelength-over-2-pi: Public ordinary functions
Function, neutron-electron-magnetic-moment-ratio: Public ordinary functions
Function, neutron-electron-magnetic-moment-ratio: Public ordinary functions
Function, neutron-electron-magnetic-moment-ratio: Public ordinary functions
Function, neutron-electron-mass-ratio: Public ordinary functions
Function, neutron-electron-mass-ratio: Public ordinary functions
Function, neutron-electron-mass-ratio: Public ordinary functions
Function, neutron-g-factor: Public ordinary functions
Function, neutron-g-factor: Public ordinary functions
Function, neutron-g-factor: Public ordinary functions
Function, neutron-gyromagnetic-ratio: Public ordinary functions
Function, neutron-gyromagnetic-ratio: Public ordinary functions
Function, neutron-gyromagnetic-ratio: Public ordinary functions
Function, neutron-gyromagnetic-ratio-in-mhz/t: Public ordinary functions
Function, neutron-gyromagnetic-ratio-over-2-pi: Public ordinary functions
Function, neutron-gyromagnetic-ratio-over-2-pi: Public ordinary functions
Function, neutron-magnetic-moment: Public ordinary functions
Function, neutron-magnetic-moment: Public ordinary functions
Function, neutron-magnetic-moment: Public ordinary functions
Function, neutron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, neutron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, neutron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, neutron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, neutron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, neutron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, neutron-mass: Public ordinary functions
Function, neutron-mass: Public ordinary functions
Function, neutron-mass: Public ordinary functions
Function, neutron-mass-energy-equivalent: Public ordinary functions
Function, neutron-mass-energy-equivalent: Public ordinary functions
Function, neutron-mass-energy-equivalent: Public ordinary functions
Function, neutron-mass-energy-equivalent-in-mev: Public ordinary functions
Function, neutron-mass-energy-equivalent-in-mev: Public ordinary functions
Function, neutron-mass-energy-equivalent-in-mev: Public ordinary functions
Function, neutron-mass-in-u: Public ordinary functions
Function, neutron-mass-in-u: Public ordinary functions
Function, neutron-mass-in-u: Public ordinary functions
Function, neutron-molar-mass: Public ordinary functions
Function, neutron-molar-mass: Public ordinary functions
Function, neutron-molar-mass: Public ordinary functions
Function, neutron-muon-mass-ratio: Public ordinary functions
Function, neutron-muon-mass-ratio: Public ordinary functions
Function, neutron-muon-mass-ratio: Public ordinary functions
Function, neutron-proton-magnetic-moment-ratio: Public ordinary functions
Function, neutron-proton-magnetic-moment-ratio: Public ordinary functions
Function, neutron-proton-magnetic-moment-ratio: Public ordinary functions
Function, neutron-proton-mass-difference: Public ordinary functions
Function, neutron-proton-mass-difference: Public ordinary functions
Function, neutron-proton-mass-difference: Public ordinary functions
Function, neutron-proton-mass-difference-energy-equivalent: Public ordinary functions
Function, neutron-proton-mass-difference-energy-equivalent: Public ordinary functions
Function, neutron-proton-mass-difference-energy-equivalent: Public ordinary functions
Function, neutron-proton-mass-difference-energy-equivalent-in-mev: Public ordinary functions
Function, neutron-proton-mass-difference-energy-equivalent-in-mev: Public ordinary functions
Function, neutron-proton-mass-difference-energy-equivalent-in-mev: Public ordinary functions
Function, neutron-proton-mass-difference-in-u: Public ordinary functions
Function, neutron-proton-mass-difference-in-u: Public ordinary functions
Function, neutron-proton-mass-difference-in-u: Public ordinary functions
Function, neutron-proton-mass-ratio: Public ordinary functions
Function, neutron-proton-mass-ratio: Public ordinary functions
Function, neutron-proton-mass-ratio: Public ordinary functions
Function, neutron-relative-atomic-mass: Public ordinary functions
Function, neutron-tau-mass-ratio: Public ordinary functions
Function, neutron-tau-mass-ratio: Public ordinary functions
Function, neutron-tau-mass-ratio: Public ordinary functions
Function, neutron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
Function, neutron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
Function, neutron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
Function, newton: Public ordinary functions
Function, newtonian-constant-of-gravitation: Public ordinary functions
Function, newtonian-constant-of-gravitation: Public ordinary functions
Function, newtonian-constant-of-gravitation: Public ordinary functions
Function, newtonian-constant-of-gravitation-over-h-bar-c: Public ordinary functions
Function, newtonian-constant-of-gravitation-over-h-bar-c: Public ordinary functions
Function, newtonian-constant-of-gravitation-over-h-bar-c: Public ordinary functions
Function, nuclear-magneton: Public ordinary functions
Function, nuclear-magneton: Public ordinary functions
Function, nuclear-magneton: Public ordinary functions
Function, nuclear-magneton-in-ev/t: Public ordinary functions
Function, nuclear-magneton-in-ev/t: Public ordinary functions
Function, nuclear-magneton-in-ev/t: Public ordinary functions
Function, nuclear-magneton-in-inverse-meter-per-tesla: Public ordinary functions
Function, nuclear-magneton-in-inverse-meters-per-tesla: Public ordinary functions
Function, nuclear-magneton-in-inverse-meters-per-tesla: Public ordinary functions
Function, nuclear-magneton-in-k/t: Public ordinary functions
Function, nuclear-magneton-in-k/t: Public ordinary functions
Function, nuclear-magneton-in-k/t: Public ordinary functions
Function, nuclear-magneton-in-mhz/t: Public ordinary functions
Function, nuclear-magneton-in-mhz/t: Public ordinary functions
Function, nuclear-magneton-in-mhz/t: Public ordinary functions
Function, planck-constant: Public ordinary functions
Function, planck-constant: Public ordinary functions
Function, planck-constant: Public ordinary functions
Function, planck-constant-in-ev-s: Public ordinary functions
Function, planck-constant-in-ev-s: Public ordinary functions
Function, planck-constant-in-ev/hz: Public ordinary functions
Function, planck-constant-over-2-pi: Public ordinary functions
Function, planck-constant-over-2-pi: Public ordinary functions
Function, planck-constant-over-2-pi-in-ev-s: Public ordinary functions
Function, planck-constant-over-2-pi-in-ev-s: Public ordinary functions
Function, planck-constant-over-2-pi-times-c-in-mev-fm: Public ordinary functions
Function, planck-constant-over-2-pi-times-c-in-mev-fm: Public ordinary functions
Function, planck-length: Public ordinary functions
Function, planck-length: Public ordinary functions
Function, planck-length: Public ordinary functions
Function, planck-mass: Public ordinary functions
Function, planck-mass: Public ordinary functions
Function, planck-mass: Public ordinary functions
Function, planck-mass-energy-equivalent-in-gev: Public ordinary functions
Function, planck-mass-energy-equivalent-in-gev: Public ordinary functions
Function, planck-mass-energy-equivalent-in-gev: Public ordinary functions
Function, planck-temperature: Public ordinary functions
Function, planck-temperature: Public ordinary functions
Function, planck-temperature: Public ordinary functions
Function, planck-time: Public ordinary functions
Function, planck-time: Public ordinary functions
Function, planck-time: Public ordinary functions
Function, proton-charge-to-mass-quotient: Public ordinary functions
Function, proton-charge-to-mass-quotient: Public ordinary functions
Function, proton-charge-to-mass-quotient: Public ordinary functions
Function, proton-compton-wavelength: Public ordinary functions
Function, proton-compton-wavelength: Public ordinary functions
Function, proton-compton-wavelength: Public ordinary functions
Function, proton-compton-wavelength-over-2-pi: Public ordinary functions
Function, proton-compton-wavelength-over-2-pi: Public ordinary functions
Function, proton-electron-mass-ratio: Public ordinary functions
Function, proton-electron-mass-ratio: Public ordinary functions
Function, proton-electron-mass-ratio: Public ordinary functions
Function, proton-g-factor: Public ordinary functions
Function, proton-g-factor: Public ordinary functions
Function, proton-g-factor: Public ordinary functions
Function, proton-gyromagnetic-ratio: Public ordinary functions
Function, proton-gyromagnetic-ratio: Public ordinary functions
Function, proton-gyromagnetic-ratio: Public ordinary functions
Function, proton-gyromagnetic-ratio-in-mhz/t: Public ordinary functions
Function, proton-gyromagnetic-ratio-over-2-pi: Public ordinary functions
Function, proton-gyromagnetic-ratio-over-2-pi: Public ordinary functions
Function, proton-magnetic-moment: Public ordinary functions
Function, proton-magnetic-moment: Public ordinary functions
Function, proton-magnetic-moment: Public ordinary functions
Function, proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, proton-magnetic-shielding-correction: Public ordinary functions
Function, proton-magnetic-shielding-correction: Public ordinary functions
Function, proton-magnetic-shielding-correction: Public ordinary functions
Function, proton-mass: Public ordinary functions
Function, proton-mass: Public ordinary functions
Function, proton-mass: Public ordinary functions
Function, proton-mass-energy-equivalent: Public ordinary functions
Function, proton-mass-energy-equivalent: Public ordinary functions
Function, proton-mass-energy-equivalent: Public ordinary functions
Function, proton-mass-energy-equivalent-in-mev: Public ordinary functions
Function, proton-mass-energy-equivalent-in-mev: Public ordinary functions
Function, proton-mass-energy-equivalent-in-mev: Public ordinary functions
Function, proton-mass-in-u: Public ordinary functions
Function, proton-mass-in-u: Public ordinary functions
Function, proton-mass-in-u: Public ordinary functions
Function, proton-molar-mass: Public ordinary functions
Function, proton-molar-mass: Public ordinary functions
Function, proton-molar-mass: Public ordinary functions
Function, proton-muon-mass-ratio: Public ordinary functions
Function, proton-muon-mass-ratio: Public ordinary functions
Function, proton-muon-mass-ratio: Public ordinary functions
Function, proton-neutron-magnetic-moment-ratio: Public ordinary functions
Function, proton-neutron-magnetic-moment-ratio: Public ordinary functions
Function, proton-neutron-magnetic-moment-ratio: Public ordinary functions
Function, proton-neutron-mass-ratio: Public ordinary functions
Function, proton-neutron-mass-ratio: Public ordinary functions
Function, proton-neutron-mass-ratio: Public ordinary functions
Function, proton-relative-atomic-mass: Public ordinary functions
Function, proton-rms-charge-radius: Public ordinary functions
Function, proton-rms-charge-radius: Public ordinary functions
Function, proton-rms-charge-radius: Public ordinary functions
Function, proton-tau-mass-ratio: Public ordinary functions
Function, proton-tau-mass-ratio: Public ordinary functions
Function, proton-tau-mass-ratio: Public ordinary functions
Function, quantum-of-circulation: Public ordinary functions
Function, quantum-of-circulation: Public ordinary functions
Function, quantum-of-circulation: Public ordinary functions
Function, quantum-of-circulation-times-2: Public ordinary functions
Function, quantum-of-circulation-times-2: Public ordinary functions
Function, quantum-of-circulation-times-2: Public ordinary functions
Function, reduced-compton-wavelength: Public ordinary functions
Function, reduced-muon-compton-wavelength: Public ordinary functions
Function, reduced-neutron-compton-wavelength: Public ordinary functions
Function, reduced-planck-constant: Public ordinary functions
Function, reduced-planck-constant-in-ev-s: Public ordinary functions
Function, reduced-planck-constant-times-c-in-mev-fm: Public ordinary functions
Function, reduced-proton-compton-wavelength: Public ordinary functions
Function, reduced-tau-compton-wavelength: Public ordinary functions
Function, rydberg-constant: Public ordinary functions
Function, rydberg-constant: Public ordinary functions
Function, rydberg-constant: Public ordinary functions
Function, rydberg-constant-times-c-in-hz: Public ordinary functions
Function, rydberg-constant-times-c-in-hz: Public ordinary functions
Function, rydberg-constant-times-c-in-hz: Public ordinary functions
Function, rydberg-constant-times-hc-in-ev: Public ordinary functions
Function, rydberg-constant-times-hc-in-ev: Public ordinary functions
Function, rydberg-constant-times-hc-in-ev: Public ordinary functions
Function, rydberg-constant-times-hc-in-j: Public ordinary functions
Function, rydberg-constant-times-hc-in-j: Public ordinary functions
Function, rydberg-constant-times-hc-in-j: Public ordinary functions
Function, sackur-tetrode-constant-at-1k-and-100000pa: Public ordinary functions
Function, sackur-tetrode-constant-at-1k-and-100000pa: Public ordinary functions
Function, sackur-tetrode-constant-at-1k-and-100000pa: Public ordinary functions
Function, sackur-tetrode-constant-at-1k-and-101325pa: Public ordinary functions
Function, sackur-tetrode-constant-at-1k-and-101325pa: Public ordinary functions
Function, sackur-tetrode-constant-at-1k-and-101325pa: Public ordinary functions
Function, second-radiation-constant: Public ordinary functions
Function, second-radiation-constant: Public ordinary functions
Function, second-radiation-constant: Public ordinary functions
Function, shielded-helion-gyromagnetic-ratio: Public ordinary functions
Function, shielded-helion-gyromagnetic-ratio: Public ordinary functions
Function, shielded-helion-gyromagnetic-ratio: Public ordinary functions
Function, shielded-helion-gyromagnetic-ratio-in-mhz/t: Public ordinary functions
Function, shielded-helion-gyromagnetic-ratio-over-2-pi: Public ordinary functions
Function, shielded-helion-gyromagnetic-ratio-over-2-pi: Public ordinary functions
Function, shielded-helion-magnetic-moment: Public ordinary functions
Function, shielded-helion-magnetic-moment: Public ordinary functions
Function, shielded-helion-magnetic-moment: Public ordinary functions
Function, shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, shielded-helion-to-proton-magnetic-moment-ratio: Public ordinary functions
Function, shielded-helion-to-proton-magnetic-moment-ratio: Public ordinary functions
Function, shielded-helion-to-proton-magnetic-moment-ratio: Public ordinary functions
Function, shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
Function, shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
Function, shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
Function, shielded-proton-gyromagnetic-ratio: Public ordinary functions
Function, shielded-proton-gyromagnetic-ratio: Public ordinary functions
Function, shielded-proton-gyromagnetic-ratio: Public ordinary functions
Function, shielded-proton-gyromagnetic-ratio-in-mhz/t: Public ordinary functions
Function, shielded-proton-gyromagnetic-ratio-over-2-pi: Public ordinary functions
Function, shielded-proton-gyromagnetic-ratio-over-2-pi: Public ordinary functions
Function, shielded-proton-magnetic-moment: Public ordinary functions
Function, shielded-proton-magnetic-moment: Public ordinary functions
Function, shielded-proton-magnetic-moment: Public ordinary functions
Function, shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, shielding-difference-of-d-and-p-in-hd: Public ordinary functions
Function, shielding-difference-of-t-and-p-in-ht: Public ordinary functions
Function, speed-of-light-in-vacuum: Public ordinary functions
Function, speed-of-light-in-vacuum: Public ordinary functions
Function, speed-of-light-in-vacuum: Public ordinary functions
Function, standard-acceleration-of-gravity: Public ordinary functions
Function, standard-acceleration-of-gravity: Public ordinary functions
Function, standard-acceleration-of-gravity: Public ordinary functions
Function, standard-atmosphere: Public ordinary functions
Function, standard-atmosphere: Public ordinary functions
Function, standard-atmosphere: Public ordinary functions
Function, standard-state-pressure: Public ordinary functions
Function, standard-state-pressure: Public ordinary functions
Function, standard-state-pressure: Public ordinary functions
Function, stefan-boltzmann-constant: Public ordinary functions
Function, stefan-boltzmann-constant: Public ordinary functions
Function, stefan-boltzmann-constant: Public ordinary functions
Function, string-value: Public ordinary functions
Function, tau-compton-wavelength: Public ordinary functions
Function, tau-compton-wavelength: Public ordinary functions
Function, tau-compton-wavelength: Public ordinary functions
Function, tau-compton-wavelength-over-2-pi: Public ordinary functions
Function, tau-compton-wavelength-over-2-pi: Public ordinary functions
Function, tau-electron-mass-ratio: Public ordinary functions
Function, tau-electron-mass-ratio: Public ordinary functions
Function, tau-electron-mass-ratio: Public ordinary functions
Function, tau-energy-equivalent: Public ordinary functions
Function, tau-mass: Public ordinary functions
Function, tau-mass: Public ordinary functions
Function, tau-mass: Public ordinary functions
Function, tau-mass-energy-equivalent: Public ordinary functions
Function, tau-mass-energy-equivalent: Public ordinary functions
Function, tau-mass-energy-equivalent: Public ordinary functions
Function, tau-mass-energy-equivalent-in-mev: Public ordinary functions
Function, tau-mass-energy-equivalent-in-mev: Public ordinary functions
Function, tau-mass-in-u: Public ordinary functions
Function, tau-mass-in-u: Public ordinary functions
Function, tau-mass-in-u: Public ordinary functions
Function, tau-molar-mass: Public ordinary functions
Function, tau-molar-mass: Public ordinary functions
Function, tau-molar-mass: Public ordinary functions
Function, tau-muon-mass-ratio: Public ordinary functions
Function, tau-muon-mass-ratio: Public ordinary functions
Function, tau-muon-mass-ratio: Public ordinary functions
Function, tau-neutron-mass-ratio: Public ordinary functions
Function, tau-neutron-mass-ratio: Public ordinary functions
Function, tau-neutron-mass-ratio: Public ordinary functions
Function, tau-proton-mass-ratio: Public ordinary functions
Function, tau-proton-mass-ratio: Public ordinary functions
Function, tau-proton-mass-ratio: Public ordinary functions
Function, thomson-cross-section: Public ordinary functions
Function, thomson-cross-section: Public ordinary functions
Function, thomson-cross-section: Public ordinary functions
Function, triton-electron-mass-ratio: Public ordinary functions
Function, triton-electron-mass-ratio: Public ordinary functions
Function, triton-electron-mass-ratio: Public ordinary functions
Function, triton-g-factor: Public ordinary functions
Function, triton-g-factor: Public ordinary functions
Function, triton-g-factor: Public ordinary functions
Function, triton-magnetic-moment: Public ordinary functions
Function, triton-magnetic-moment: Public ordinary functions
Function, triton-magnetic-moment: Public ordinary functions
Function, triton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, triton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, triton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
Function, triton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, triton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, triton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
Function, triton-mass: Public ordinary functions
Function, triton-mass: Public ordinary functions
Function, triton-mass: Public ordinary functions
Function, triton-mass-energy-equivalent: Public ordinary functions
Function, triton-mass-energy-equivalent: Public ordinary functions
Function, triton-mass-energy-equivalent: Public ordinary functions
Function, triton-mass-energy-equivalent-in-mev: Public ordinary functions
Function, triton-mass-energy-equivalent-in-mev: Public ordinary functions
Function, triton-mass-energy-equivalent-in-mev: Public ordinary functions
Function, triton-mass-in-u: Public ordinary functions
Function, triton-mass-in-u: Public ordinary functions
Function, triton-mass-in-u: Public ordinary functions
Function, triton-molar-mass: Public ordinary functions
Function, triton-molar-mass: Public ordinary functions
Function, triton-molar-mass: Public ordinary functions
Function, triton-proton-mass-ratio: Public ordinary functions
Function, triton-proton-mass-ratio: Public ordinary functions
Function, triton-proton-mass-ratio: Public ordinary functions
Function, triton-relative-atomic-mass: Public ordinary functions
Function, triton-to-proton-magnetic-moment-ratio: Public ordinary functions
Function, unified-atomic-mass-unit: Public ordinary functions
Function, unified-atomic-mass-unit: Public ordinary functions
Function, unified-atomic-mass-unit: Public ordinary functions
Function, vacuum-electric-permittivity: Public ordinary functions
Function, vacuum-magnetic-permeability: Public ordinary functions
Function, von-klitzing-constant: Public ordinary functions
Function, von-klitzing-constant: Public ordinary functions
Function, von-klitzing-constant: Public ordinary functions
Function, w-to-z-mass-ratio: Public ordinary functions
Function, weak-mixing-angle: Public ordinary functions
Function, weak-mixing-angle: Public ordinary functions
Function, weak-mixing-angle: Public ordinary functions
Function, wien-frequency-displacement-law-constant: Public ordinary functions
Function, wien-frequency-displacement-law-constant: Public ordinary functions
Function, wien-frequency-displacement-law-constant: Public ordinary functions
Function, wien-wavelength-displacement-law-constant: Public ordinary functions
Function, wien-wavelength-displacement-law-constant: Public ordinary functions
Function, wien-wavelength-displacement-law-constant: Public ordinary functions

H
hartree-atomic-mass-unit-relationship: Public ordinary functions
hartree-atomic-mass-unit-relationship: Public ordinary functions
hartree-atomic-mass-unit-relationship: Public ordinary functions
hartree-electron-volt-relationship: Public ordinary functions
hartree-electron-volt-relationship: Public ordinary functions
hartree-electron-volt-relationship: Public ordinary functions
hartree-energy: Public ordinary functions
hartree-energy: Public ordinary functions
hartree-energy: Public ordinary functions
hartree-energy-in-ev: Public ordinary functions
hartree-energy-in-ev: Public ordinary functions
hartree-energy-in-ev: Public ordinary functions
hartree-hertz-relationship: Public ordinary functions
hartree-hertz-relationship: Public ordinary functions
hartree-hertz-relationship: Public ordinary functions
hartree-inverse-meter-relationship: Public ordinary functions
hartree-inverse-meter-relationship: Public ordinary functions
hartree-inverse-meter-relationship: Public ordinary functions
hartree-joule-relationship: Public ordinary functions
hartree-joule-relationship: Public ordinary functions
hartree-joule-relationship: Public ordinary functions
hartree-kelvin-relationship: Public ordinary functions
hartree-kelvin-relationship: Public ordinary functions
hartree-kelvin-relationship: Public ordinary functions
hartree-kilogram-relationship: Public ordinary functions
hartree-kilogram-relationship: Public ordinary functions
hartree-kilogram-relationship: Public ordinary functions
helion-electron-mass-ratio: Public ordinary functions
helion-electron-mass-ratio: Public ordinary functions
helion-electron-mass-ratio: Public ordinary functions
helion-g-factor: Public ordinary functions
helion-g-factor: Public ordinary functions
helion-g-factor: Public ordinary functions
helion-magnetic-moment: Public ordinary functions
helion-magnetic-moment: Public ordinary functions
helion-magnetic-moment: Public ordinary functions
helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
helion-mass: Public ordinary functions
helion-mass: Public ordinary functions
helion-mass: Public ordinary functions
helion-mass-energy-equivalent: Public ordinary functions
helion-mass-energy-equivalent: Public ordinary functions
helion-mass-energy-equivalent: Public ordinary functions
helion-mass-energy-equivalent-in-mev: Public ordinary functions
helion-mass-energy-equivalent-in-mev: Public ordinary functions
helion-mass-energy-equivalent-in-mev: Public ordinary functions
helion-mass-in-u: Public ordinary functions
helion-mass-in-u: Public ordinary functions
helion-mass-in-u: Public ordinary functions
helion-molar-mass: Public ordinary functions
helion-molar-mass: Public ordinary functions
helion-molar-mass: Public ordinary functions
helion-proton-mass-ratio: Public ordinary functions
helion-proton-mass-ratio: Public ordinary functions
helion-proton-mass-ratio: Public ordinary functions
helion-relative-atomic-mass: Public ordinary functions
helion-shielding-shift: Public ordinary functions
hertz-atomic-mass-unit-relationship: Public ordinary functions
hertz-atomic-mass-unit-relationship: Public ordinary functions
hertz-atomic-mass-unit-relationship: Public ordinary functions
hertz-electron-volt-relationship: Public ordinary functions
hertz-electron-volt-relationship: Public ordinary functions
hertz-electron-volt-relationship: Public ordinary functions
hertz-hartree-relationship: Public ordinary functions
hertz-hartree-relationship: Public ordinary functions
hertz-hartree-relationship: Public ordinary functions
hertz-inverse-meter-relationship: Public ordinary functions
hertz-inverse-meter-relationship: Public ordinary functions
hertz-inverse-meter-relationship: Public ordinary functions
hertz-joule-relationship: Public ordinary functions
hertz-joule-relationship: Public ordinary functions
hertz-joule-relationship: Public ordinary functions
hertz-kelvin-relationship: Public ordinary functions
hertz-kelvin-relationship: Public ordinary functions
hertz-kelvin-relationship: Public ordinary functions
hertz-kilogram-relationship: Public ordinary functions
hertz-kilogram-relationship: Public ordinary functions
hertz-kilogram-relationship: Public ordinary functions
hyperfine-transition-frequency-of-caesium-133: Public ordinary functions

I
inverse-fine-structure-constant: Public ordinary functions
inverse-fine-structure-constant: Public ordinary functions
inverse-fine-structure-constant: Public ordinary functions
inverse-meter-atomic-mass-unit-relationship: Public ordinary functions
inverse-meter-atomic-mass-unit-relationship: Public ordinary functions
inverse-meter-atomic-mass-unit-relationship: Public ordinary functions
inverse-meter-electron-volt-relationship: Public ordinary functions
inverse-meter-electron-volt-relationship: Public ordinary functions
inverse-meter-electron-volt-relationship: Public ordinary functions
inverse-meter-hartree-relationship: Public ordinary functions
inverse-meter-hartree-relationship: Public ordinary functions
inverse-meter-hartree-relationship: Public ordinary functions
inverse-meter-hertz-relationship: Public ordinary functions
inverse-meter-hertz-relationship: Public ordinary functions
inverse-meter-hertz-relationship: Public ordinary functions
inverse-meter-joule-relationship: Public ordinary functions
inverse-meter-joule-relationship: Public ordinary functions
inverse-meter-joule-relationship: Public ordinary functions
inverse-meter-kelvin-relationship: Public ordinary functions
inverse-meter-kelvin-relationship: Public ordinary functions
inverse-meter-kelvin-relationship: Public ordinary functions
inverse-meter-kilogram-relationship: Public ordinary functions
inverse-meter-kilogram-relationship: Public ordinary functions
inverse-meter-kilogram-relationship: Public ordinary functions
inverse-of-conductance-quantum: Public ordinary functions
inverse-of-conductance-quantum: Public ordinary functions
inverse-of-conductance-quantum: Public ordinary functions

J
josephson-constant: Public ordinary functions
josephson-constant: Public ordinary functions
josephson-constant: Public ordinary functions
joule-atomic-mass-unit-relationship: Public ordinary functions
joule-atomic-mass-unit-relationship: Public ordinary functions
joule-atomic-mass-unit-relationship: Public ordinary functions
joule-electron-volt-relationship: Public ordinary functions
joule-electron-volt-relationship: Public ordinary functions
joule-electron-volt-relationship: Public ordinary functions
joule-hartree-relationship: Public ordinary functions
joule-hartree-relationship: Public ordinary functions
joule-hartree-relationship: Public ordinary functions
joule-hertz-relationship: Public ordinary functions
joule-hertz-relationship: Public ordinary functions
joule-hertz-relationship: Public ordinary functions
joule-inverse-meter-relationship: Public ordinary functions
joule-inverse-meter-relationship: Public ordinary functions
joule-inverse-meter-relationship: Public ordinary functions
joule-kelvin-relationship: Public ordinary functions
joule-kelvin-relationship: Public ordinary functions
joule-kelvin-relationship: Public ordinary functions
joule-kilogram-relationship: Public ordinary functions
joule-kilogram-relationship: Public ordinary functions
joule-kilogram-relationship: Public ordinary functions

K
kelvin-atomic-mass-unit-relationship: Public ordinary functions
kelvin-atomic-mass-unit-relationship: Public ordinary functions
kelvin-atomic-mass-unit-relationship: Public ordinary functions
kelvin-electron-volt-relationship: Public ordinary functions
kelvin-electron-volt-relationship: Public ordinary functions
kelvin-electron-volt-relationship: Public ordinary functions
kelvin-hartree-relationship: Public ordinary functions
kelvin-hartree-relationship: Public ordinary functions
kelvin-hartree-relationship: Public ordinary functions
kelvin-hertz-relationship: Public ordinary functions
kelvin-hertz-relationship: Public ordinary functions
kelvin-hertz-relationship: Public ordinary functions
kelvin-inverse-meter-relationship: Public ordinary functions
kelvin-inverse-meter-relationship: Public ordinary functions
kelvin-inverse-meter-relationship: Public ordinary functions
kelvin-joule-relationship: Public ordinary functions
kelvin-joule-relationship: Public ordinary functions
kelvin-joule-relationship: Public ordinary functions
kelvin-kilogram-relationship: Public ordinary functions
kelvin-kilogram-relationship: Public ordinary functions
kelvin-kilogram-relationship: Public ordinary functions
kilogram-atomic-mass-unit-relationship: Public ordinary functions
kilogram-atomic-mass-unit-relationship: Public ordinary functions
kilogram-atomic-mass-unit-relationship: Public ordinary functions
kilogram-electron-volt-relationship: Public ordinary functions
kilogram-electron-volt-relationship: Public ordinary functions
kilogram-electron-volt-relationship: Public ordinary functions
kilogram-hartree-relationship: Public ordinary functions
kilogram-hartree-relationship: Public ordinary functions
kilogram-hartree-relationship: Public ordinary functions
kilogram-hertz-relationship: Public ordinary functions
kilogram-hertz-relationship: Public ordinary functions
kilogram-hertz-relationship: Public ordinary functions
kilogram-inverse-meter-relationship: Public ordinary functions
kilogram-inverse-meter-relationship: Public ordinary functions
kilogram-inverse-meter-relationship: Public ordinary functions
kilogram-joule-relationship: Public ordinary functions
kilogram-joule-relationship: Public ordinary functions
kilogram-joule-relationship: Public ordinary functions
kilogram-kelvin-relationship: Public ordinary functions
kilogram-kelvin-relationship: Public ordinary functions
kilogram-kelvin-relationship: Public ordinary functions

L
lattice-parameter-of-silicon: Public ordinary functions
lattice-parameter-of-silicon: Public ordinary functions
lattice-parameter-of-silicon: Public ordinary functions
lattice-spacing-of-ideal-silicon-at-220: Public ordinary functions
loschmidt-constant-at-273.15k-and-100000pa: Public ordinary functions
loschmidt-constant-at-273.15k-and-100000pa: Public ordinary functions
loschmidt-constant-at-273.15k-and-100000pa: Public ordinary functions
loschmidt-constant-at-273.15k-and-101325pa: Public ordinary functions
loschmidt-constant-at-273.15k-and-101325pa: Public ordinary functions
loschmidt-constant-at-273.15k-and-101325pa: Public ordinary functions
luminous-efficacy: Public ordinary functions

M
Macro, defconst: Public macros
Macro, define-constant: Public macros
Macro, defsubst: Public macros
Macro, with-early-bindings: Private macros
Macro, with-early-bindings: Private macros
Macro, with-early-bindings: Private macros
magnetic-constant: Public ordinary functions
magnetic-constant: Public ordinary functions
magnetic-flux-quantum: Public ordinary functions
magnetic-flux-quantum: Public ordinary functions
magnetic-flux-quantum: Public ordinary functions
mo-x-unit: Public ordinary functions
mo-x-unit: Public ordinary functions
molar-gas-constant: Public ordinary functions
molar-gas-constant: Public ordinary functions
molar-gas-constant: Public ordinary functions
molar-mass-constant: Public ordinary functions
molar-mass-constant: Public ordinary functions
molar-mass-constant: Public ordinary functions
molar-mass-of-carbon-12: Public ordinary functions
molar-mass-of-carbon-12: Public ordinary functions
molar-mass-of-carbon-12: Public ordinary functions
molar-planck-constant: Public ordinary functions
molar-planck-constant: Public ordinary functions
molar-planck-constant: Public ordinary functions
molar-planck-constant-times-c: Public ordinary functions
molar-planck-constant-times-c: Public ordinary functions
molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public ordinary functions
molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public ordinary functions
molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public ordinary functions
molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public ordinary functions
molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public ordinary functions
molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public ordinary functions
molar-volume-of-silicon: Public ordinary functions
molar-volume-of-silicon: Public ordinary functions
molar-volume-of-silicon: Public ordinary functions
molybdenum-x-unit: Public ordinary functions
muon-compton-wavelength: Public ordinary functions
muon-compton-wavelength: Public ordinary functions
muon-compton-wavelength: Public ordinary functions
muon-compton-wavelength-over-2-pi: Public ordinary functions
muon-compton-wavelength-over-2-pi: Public ordinary functions
muon-electron-mass-ratio: Public ordinary functions
muon-electron-mass-ratio: Public ordinary functions
muon-electron-mass-ratio: Public ordinary functions
muon-g-factor: Public ordinary functions
muon-g-factor: Public ordinary functions
muon-g-factor: Public ordinary functions
muon-magnetic-moment: Public ordinary functions
muon-magnetic-moment: Public ordinary functions
muon-magnetic-moment: Public ordinary functions
muon-magnetic-moment-anomaly: Public ordinary functions
muon-magnetic-moment-anomaly: Public ordinary functions
muon-magnetic-moment-anomaly: Public ordinary functions
muon-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
muon-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
muon-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
muon-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
muon-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
muon-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
muon-mass: Public ordinary functions
muon-mass: Public ordinary functions
muon-mass: Public ordinary functions
muon-mass-energy-equivalent: Public ordinary functions
muon-mass-energy-equivalent: Public ordinary functions
muon-mass-energy-equivalent: Public ordinary functions
muon-mass-energy-equivalent-in-mev: Public ordinary functions
muon-mass-energy-equivalent-in-mev: Public ordinary functions
muon-mass-energy-equivalent-in-mev: Public ordinary functions
muon-mass-in-u: Public ordinary functions
muon-mass-in-u: Public ordinary functions
muon-mass-in-u: Public ordinary functions
muon-molar-mass: Public ordinary functions
muon-molar-mass: Public ordinary functions
muon-molar-mass: Public ordinary functions
muon-neutron-mass-ratio: Public ordinary functions
muon-neutron-mass-ratio: Public ordinary functions
muon-neutron-mass-ratio: Public ordinary functions
muon-proton-magnetic-moment-ratio: Public ordinary functions
muon-proton-magnetic-moment-ratio: Public ordinary functions
muon-proton-magnetic-moment-ratio: Public ordinary functions
muon-proton-mass-ratio: Public ordinary functions
muon-proton-mass-ratio: Public ordinary functions
muon-proton-mass-ratio: Public ordinary functions
muon-tau-mass-ratio: Public ordinary functions
muon-tau-mass-ratio: Public ordinary functions
muon-tau-mass-ratio: Public ordinary functions

N
natural-unit-of-action: Public ordinary functions
natural-unit-of-action: Public ordinary functions
natural-unit-of-action: Public ordinary functions
natural-unit-of-action-in-ev-s: Public ordinary functions
natural-unit-of-action-in-ev-s: Public ordinary functions
natural-unit-of-action-in-ev-s: Public ordinary functions
natural-unit-of-energy: Public ordinary functions
natural-unit-of-energy: Public ordinary functions
natural-unit-of-energy: Public ordinary functions
natural-unit-of-energy-in-mev: Public ordinary functions
natural-unit-of-energy-in-mev: Public ordinary functions
natural-unit-of-energy-in-mev: Public ordinary functions
natural-unit-of-length: Public ordinary functions
natural-unit-of-length: Public ordinary functions
natural-unit-of-length: Public ordinary functions
natural-unit-of-mass: Public ordinary functions
natural-unit-of-mass: Public ordinary functions
natural-unit-of-mass: Public ordinary functions
natural-unit-of-momentum: Public ordinary functions
natural-unit-of-momentum: Public ordinary functions
natural-unit-of-momentum: Public ordinary functions
natural-unit-of-momentum-in-mev/c: Public ordinary functions
natural-unit-of-momentum-in-mev/c: Public ordinary functions
natural-unit-of-momentum-in-mev/c: Public ordinary functions
natural-unit-of-time: Public ordinary functions
natural-unit-of-time: Public ordinary functions
natural-unit-of-time: Public ordinary functions
natural-unit-of-velocity: Public ordinary functions
natural-unit-of-velocity: Public ordinary functions
natural-unit-of-velocity: Public ordinary functions
neutron-compton-wavelength: Public ordinary functions
neutron-compton-wavelength: Public ordinary functions
neutron-compton-wavelength: Public ordinary functions
neutron-compton-wavelength-over-2-pi: Public ordinary functions
neutron-compton-wavelength-over-2-pi: Public ordinary functions
neutron-electron-magnetic-moment-ratio: Public ordinary functions
neutron-electron-magnetic-moment-ratio: Public ordinary functions
neutron-electron-magnetic-moment-ratio: Public ordinary functions
neutron-electron-mass-ratio: Public ordinary functions
neutron-electron-mass-ratio: Public ordinary functions
neutron-electron-mass-ratio: Public ordinary functions
neutron-g-factor: Public ordinary functions
neutron-g-factor: Public ordinary functions
neutron-g-factor: Public ordinary functions
neutron-gyromagnetic-ratio: Public ordinary functions
neutron-gyromagnetic-ratio: Public ordinary functions
neutron-gyromagnetic-ratio: Public ordinary functions
neutron-gyromagnetic-ratio-in-mhz/t: Public ordinary functions
neutron-gyromagnetic-ratio-over-2-pi: Public ordinary functions
neutron-gyromagnetic-ratio-over-2-pi: Public ordinary functions
neutron-magnetic-moment: Public ordinary functions
neutron-magnetic-moment: Public ordinary functions
neutron-magnetic-moment: Public ordinary functions
neutron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
neutron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
neutron-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
neutron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
neutron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
neutron-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
neutron-mass: Public ordinary functions
neutron-mass: Public ordinary functions
neutron-mass: Public ordinary functions
neutron-mass-energy-equivalent: Public ordinary functions
neutron-mass-energy-equivalent: Public ordinary functions
neutron-mass-energy-equivalent: Public ordinary functions
neutron-mass-energy-equivalent-in-mev: Public ordinary functions
neutron-mass-energy-equivalent-in-mev: Public ordinary functions
neutron-mass-energy-equivalent-in-mev: Public ordinary functions
neutron-mass-in-u: Public ordinary functions
neutron-mass-in-u: Public ordinary functions
neutron-mass-in-u: Public ordinary functions
neutron-molar-mass: Public ordinary functions
neutron-molar-mass: Public ordinary functions
neutron-molar-mass: Public ordinary functions
neutron-muon-mass-ratio: Public ordinary functions
neutron-muon-mass-ratio: Public ordinary functions
neutron-muon-mass-ratio: Public ordinary functions
neutron-proton-magnetic-moment-ratio: Public ordinary functions
neutron-proton-magnetic-moment-ratio: Public ordinary functions
neutron-proton-magnetic-moment-ratio: Public ordinary functions
neutron-proton-mass-difference: Public ordinary functions
neutron-proton-mass-difference: Public ordinary functions
neutron-proton-mass-difference: Public ordinary functions
neutron-proton-mass-difference-energy-equivalent: Public ordinary functions
neutron-proton-mass-difference-energy-equivalent: Public ordinary functions
neutron-proton-mass-difference-energy-equivalent: Public ordinary functions
neutron-proton-mass-difference-energy-equivalent-in-mev: Public ordinary functions
neutron-proton-mass-difference-energy-equivalent-in-mev: Public ordinary functions
neutron-proton-mass-difference-energy-equivalent-in-mev: Public ordinary functions
neutron-proton-mass-difference-in-u: Public ordinary functions
neutron-proton-mass-difference-in-u: Public ordinary functions
neutron-proton-mass-difference-in-u: Public ordinary functions
neutron-proton-mass-ratio: Public ordinary functions
neutron-proton-mass-ratio: Public ordinary functions
neutron-proton-mass-ratio: Public ordinary functions
neutron-relative-atomic-mass: Public ordinary functions
neutron-tau-mass-ratio: Public ordinary functions
neutron-tau-mass-ratio: Public ordinary functions
neutron-tau-mass-ratio: Public ordinary functions
neutron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
neutron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
neutron-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
newton: Public ordinary functions
newtonian-constant-of-gravitation: Public ordinary functions
newtonian-constant-of-gravitation: Public ordinary functions
newtonian-constant-of-gravitation: Public ordinary functions
newtonian-constant-of-gravitation-over-h-bar-c: Public ordinary functions
newtonian-constant-of-gravitation-over-h-bar-c: Public ordinary functions
newtonian-constant-of-gravitation-over-h-bar-c: Public ordinary functions
nuclear-magneton: Public ordinary functions
nuclear-magneton: Public ordinary functions
nuclear-magneton: Public ordinary functions
nuclear-magneton-in-ev/t: Public ordinary functions
nuclear-magneton-in-ev/t: Public ordinary functions
nuclear-magneton-in-ev/t: Public ordinary functions
nuclear-magneton-in-inverse-meter-per-tesla: Public ordinary functions
nuclear-magneton-in-inverse-meters-per-tesla: Public ordinary functions
nuclear-magneton-in-inverse-meters-per-tesla: Public ordinary functions
nuclear-magneton-in-k/t: Public ordinary functions
nuclear-magneton-in-k/t: Public ordinary functions
nuclear-magneton-in-k/t: Public ordinary functions
nuclear-magneton-in-mhz/t: Public ordinary functions
nuclear-magneton-in-mhz/t: Public ordinary functions
nuclear-magneton-in-mhz/t: Public ordinary functions

P
planck-constant: Public ordinary functions
planck-constant: Public ordinary functions
planck-constant: Public ordinary functions
planck-constant-in-ev-s: Public ordinary functions
planck-constant-in-ev-s: Public ordinary functions
planck-constant-in-ev/hz: Public ordinary functions
planck-constant-over-2-pi: Public ordinary functions
planck-constant-over-2-pi: Public ordinary functions
planck-constant-over-2-pi-in-ev-s: Public ordinary functions
planck-constant-over-2-pi-in-ev-s: Public ordinary functions
planck-constant-over-2-pi-times-c-in-mev-fm: Public ordinary functions
planck-constant-over-2-pi-times-c-in-mev-fm: Public ordinary functions
planck-length: Public ordinary functions
planck-length: Public ordinary functions
planck-length: Public ordinary functions
planck-mass: Public ordinary functions
planck-mass: Public ordinary functions
planck-mass: Public ordinary functions
planck-mass-energy-equivalent-in-gev: Public ordinary functions
planck-mass-energy-equivalent-in-gev: Public ordinary functions
planck-mass-energy-equivalent-in-gev: Public ordinary functions
planck-temperature: Public ordinary functions
planck-temperature: Public ordinary functions
planck-temperature: Public ordinary functions
planck-time: Public ordinary functions
planck-time: Public ordinary functions
planck-time: Public ordinary functions
proton-charge-to-mass-quotient: Public ordinary functions
proton-charge-to-mass-quotient: Public ordinary functions
proton-charge-to-mass-quotient: Public ordinary functions
proton-compton-wavelength: Public ordinary functions
proton-compton-wavelength: Public ordinary functions
proton-compton-wavelength: Public ordinary functions
proton-compton-wavelength-over-2-pi: Public ordinary functions
proton-compton-wavelength-over-2-pi: Public ordinary functions
proton-electron-mass-ratio: Public ordinary functions
proton-electron-mass-ratio: Public ordinary functions
proton-electron-mass-ratio: Public ordinary functions
proton-g-factor: Public ordinary functions
proton-g-factor: Public ordinary functions
proton-g-factor: Public ordinary functions
proton-gyromagnetic-ratio: Public ordinary functions
proton-gyromagnetic-ratio: Public ordinary functions
proton-gyromagnetic-ratio: Public ordinary functions
proton-gyromagnetic-ratio-in-mhz/t: Public ordinary functions
proton-gyromagnetic-ratio-over-2-pi: Public ordinary functions
proton-gyromagnetic-ratio-over-2-pi: Public ordinary functions
proton-magnetic-moment: Public ordinary functions
proton-magnetic-moment: Public ordinary functions
proton-magnetic-moment: Public ordinary functions
proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
proton-magnetic-shielding-correction: Public ordinary functions
proton-magnetic-shielding-correction: Public ordinary functions
proton-magnetic-shielding-correction: Public ordinary functions
proton-mass: Public ordinary functions
proton-mass: Public ordinary functions
proton-mass: Public ordinary functions
proton-mass-energy-equivalent: Public ordinary functions
proton-mass-energy-equivalent: Public ordinary functions
proton-mass-energy-equivalent: Public ordinary functions
proton-mass-energy-equivalent-in-mev: Public ordinary functions
proton-mass-energy-equivalent-in-mev: Public ordinary functions
proton-mass-energy-equivalent-in-mev: Public ordinary functions
proton-mass-in-u: Public ordinary functions
proton-mass-in-u: Public ordinary functions
proton-mass-in-u: Public ordinary functions
proton-molar-mass: Public ordinary functions
proton-molar-mass: Public ordinary functions
proton-molar-mass: Public ordinary functions
proton-muon-mass-ratio: Public ordinary functions
proton-muon-mass-ratio: Public ordinary functions
proton-muon-mass-ratio: Public ordinary functions
proton-neutron-magnetic-moment-ratio: Public ordinary functions
proton-neutron-magnetic-moment-ratio: Public ordinary functions
proton-neutron-magnetic-moment-ratio: Public ordinary functions
proton-neutron-mass-ratio: Public ordinary functions
proton-neutron-mass-ratio: Public ordinary functions
proton-neutron-mass-ratio: Public ordinary functions
proton-relative-atomic-mass: Public ordinary functions
proton-rms-charge-radius: Public ordinary functions
proton-rms-charge-radius: Public ordinary functions
proton-rms-charge-radius: Public ordinary functions
proton-tau-mass-ratio: Public ordinary functions
proton-tau-mass-ratio: Public ordinary functions
proton-tau-mass-ratio: Public ordinary functions

Q
quantum-of-circulation: Public ordinary functions
quantum-of-circulation: Public ordinary functions
quantum-of-circulation: Public ordinary functions
quantum-of-circulation-times-2: Public ordinary functions
quantum-of-circulation-times-2: Public ordinary functions
quantum-of-circulation-times-2: Public ordinary functions

R
reduced-compton-wavelength: Public ordinary functions
reduced-muon-compton-wavelength: Public ordinary functions
reduced-neutron-compton-wavelength: Public ordinary functions
reduced-planck-constant: Public ordinary functions
reduced-planck-constant-in-ev-s: Public ordinary functions
reduced-planck-constant-times-c-in-mev-fm: Public ordinary functions
reduced-proton-compton-wavelength: Public ordinary functions
reduced-tau-compton-wavelength: Public ordinary functions
rydberg-constant: Public ordinary functions
rydberg-constant: Public ordinary functions
rydberg-constant: Public ordinary functions
rydberg-constant-times-c-in-hz: Public ordinary functions
rydberg-constant-times-c-in-hz: Public ordinary functions
rydberg-constant-times-c-in-hz: Public ordinary functions
rydberg-constant-times-hc-in-ev: Public ordinary functions
rydberg-constant-times-hc-in-ev: Public ordinary functions
rydberg-constant-times-hc-in-ev: Public ordinary functions
rydberg-constant-times-hc-in-j: Public ordinary functions
rydberg-constant-times-hc-in-j: Public ordinary functions
rydberg-constant-times-hc-in-j: Public ordinary functions

S
sackur-tetrode-constant-at-1k-and-100000pa: Public ordinary functions
sackur-tetrode-constant-at-1k-and-100000pa: Public ordinary functions
sackur-tetrode-constant-at-1k-and-100000pa: Public ordinary functions
sackur-tetrode-constant-at-1k-and-101325pa: Public ordinary functions
sackur-tetrode-constant-at-1k-and-101325pa: Public ordinary functions
sackur-tetrode-constant-at-1k-and-101325pa: Public ordinary functions
second-radiation-constant: Public ordinary functions
second-radiation-constant: Public ordinary functions
second-radiation-constant: Public ordinary functions
shielded-helion-gyromagnetic-ratio: Public ordinary functions
shielded-helion-gyromagnetic-ratio: Public ordinary functions
shielded-helion-gyromagnetic-ratio: Public ordinary functions
shielded-helion-gyromagnetic-ratio-in-mhz/t: Public ordinary functions
shielded-helion-gyromagnetic-ratio-over-2-pi: Public ordinary functions
shielded-helion-gyromagnetic-ratio-over-2-pi: Public ordinary functions
shielded-helion-magnetic-moment: Public ordinary functions
shielded-helion-magnetic-moment: Public ordinary functions
shielded-helion-magnetic-moment: Public ordinary functions
shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
shielded-helion-to-proton-magnetic-moment-ratio: Public ordinary functions
shielded-helion-to-proton-magnetic-moment-ratio: Public ordinary functions
shielded-helion-to-proton-magnetic-moment-ratio: Public ordinary functions
shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public ordinary functions
shielded-proton-gyromagnetic-ratio: Public ordinary functions
shielded-proton-gyromagnetic-ratio: Public ordinary functions
shielded-proton-gyromagnetic-ratio: Public ordinary functions
shielded-proton-gyromagnetic-ratio-in-mhz/t: Public ordinary functions
shielded-proton-gyromagnetic-ratio-over-2-pi: Public ordinary functions
shielded-proton-gyromagnetic-ratio-over-2-pi: Public ordinary functions
shielded-proton-magnetic-moment: Public ordinary functions
shielded-proton-magnetic-moment: Public ordinary functions
shielded-proton-magnetic-moment: Public ordinary functions
shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
shielding-difference-of-d-and-p-in-hd: Public ordinary functions
shielding-difference-of-t-and-p-in-ht: Public ordinary functions
speed-of-light-in-vacuum: Public ordinary functions
speed-of-light-in-vacuum: Public ordinary functions
speed-of-light-in-vacuum: Public ordinary functions
standard-acceleration-of-gravity: Public ordinary functions
standard-acceleration-of-gravity: Public ordinary functions
standard-acceleration-of-gravity: Public ordinary functions
standard-atmosphere: Public ordinary functions
standard-atmosphere: Public ordinary functions
standard-atmosphere: Public ordinary functions
standard-state-pressure: Public ordinary functions
standard-state-pressure: Public ordinary functions
standard-state-pressure: Public ordinary functions
stefan-boltzmann-constant: Public ordinary functions
stefan-boltzmann-constant: Public ordinary functions
stefan-boltzmann-constant: Public ordinary functions
string-value: Public ordinary functions

T
tau-compton-wavelength: Public ordinary functions
tau-compton-wavelength: Public ordinary functions
tau-compton-wavelength: Public ordinary functions
tau-compton-wavelength-over-2-pi: Public ordinary functions
tau-compton-wavelength-over-2-pi: Public ordinary functions
tau-electron-mass-ratio: Public ordinary functions
tau-electron-mass-ratio: Public ordinary functions
tau-electron-mass-ratio: Public ordinary functions
tau-energy-equivalent: Public ordinary functions
tau-mass: Public ordinary functions
tau-mass: Public ordinary functions
tau-mass: Public ordinary functions
tau-mass-energy-equivalent: Public ordinary functions
tau-mass-energy-equivalent: Public ordinary functions
tau-mass-energy-equivalent: Public ordinary functions
tau-mass-energy-equivalent-in-mev: Public ordinary functions
tau-mass-energy-equivalent-in-mev: Public ordinary functions
tau-mass-in-u: Public ordinary functions
tau-mass-in-u: Public ordinary functions
tau-mass-in-u: Public ordinary functions
tau-molar-mass: Public ordinary functions
tau-molar-mass: Public ordinary functions
tau-molar-mass: Public ordinary functions
tau-muon-mass-ratio: Public ordinary functions
tau-muon-mass-ratio: Public ordinary functions
tau-muon-mass-ratio: Public ordinary functions
tau-neutron-mass-ratio: Public ordinary functions
tau-neutron-mass-ratio: Public ordinary functions
tau-neutron-mass-ratio: Public ordinary functions
tau-proton-mass-ratio: Public ordinary functions
tau-proton-mass-ratio: Public ordinary functions
tau-proton-mass-ratio: Public ordinary functions
thomson-cross-section: Public ordinary functions
thomson-cross-section: Public ordinary functions
thomson-cross-section: Public ordinary functions
triton-electron-mass-ratio: Public ordinary functions
triton-electron-mass-ratio: Public ordinary functions
triton-electron-mass-ratio: Public ordinary functions
triton-g-factor: Public ordinary functions
triton-g-factor: Public ordinary functions
triton-g-factor: Public ordinary functions
triton-magnetic-moment: Public ordinary functions
triton-magnetic-moment: Public ordinary functions
triton-magnetic-moment: Public ordinary functions
triton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
triton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
triton-magnetic-moment-to-bohr-magneton-ratio: Public ordinary functions
triton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
triton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
triton-magnetic-moment-to-nuclear-magneton-ratio: Public ordinary functions
triton-mass: Public ordinary functions
triton-mass: Public ordinary functions
triton-mass: Public ordinary functions
triton-mass-energy-equivalent: Public ordinary functions
triton-mass-energy-equivalent: Public ordinary functions
triton-mass-energy-equivalent: Public ordinary functions
triton-mass-energy-equivalent-in-mev: Public ordinary functions
triton-mass-energy-equivalent-in-mev: Public ordinary functions
triton-mass-energy-equivalent-in-mev: Public ordinary functions
triton-mass-in-u: Public ordinary functions
triton-mass-in-u: Public ordinary functions
triton-mass-in-u: Public ordinary functions
triton-molar-mass: Public ordinary functions
triton-molar-mass: Public ordinary functions
triton-molar-mass: Public ordinary functions
triton-proton-mass-ratio: Public ordinary functions
triton-proton-mass-ratio: Public ordinary functions
triton-proton-mass-ratio: Public ordinary functions
triton-relative-atomic-mass: Public ordinary functions
triton-to-proton-magnetic-moment-ratio: Public ordinary functions

U
unified-atomic-mass-unit: Public ordinary functions
unified-atomic-mass-unit: Public ordinary functions
unified-atomic-mass-unit: Public ordinary functions

V
vacuum-electric-permittivity: Public ordinary functions
vacuum-magnetic-permeability: Public ordinary functions
von-klitzing-constant: Public ordinary functions
von-klitzing-constant: Public ordinary functions
von-klitzing-constant: Public ordinary functions

W
w-to-z-mass-ratio: Public ordinary functions
weak-mixing-angle: Public ordinary functions
weak-mixing-angle: Public ordinary functions
weak-mixing-angle: Public ordinary functions
wien-frequency-displacement-law-constant: Public ordinary functions
wien-frequency-displacement-law-constant: Public ordinary functions
wien-frequency-displacement-law-constant: Public ordinary functions
wien-wavelength-displacement-law-constant: Public ordinary functions
wien-wavelength-displacement-law-constant: Public ordinary functions
wien-wavelength-displacement-law-constant: Public ordinary functions
with-early-bindings: Private macros
with-early-bindings: Private macros
with-early-bindings: Private macros


A.3 Variables

Jump to:   *   2  
A   B   C   D   E   F   H   I   J   K   L   M   N   P   Q   R   S   T   U   V   W  
Index Entry  Section

*
*string-value*: Public special variables

2
220-lattice-spacing-of-silicon: Public constants
220-lattice-spacing-of-silicon: Public constants
220-lattice-spacing-of-silicon: Public symbol macros

A
alpha-particle-electron-mass-ratio: Public constants
alpha-particle-electron-mass-ratio: Public constants
alpha-particle-electron-mass-ratio: Public constants
alpha-particle-mass: Public constants
alpha-particle-mass: Public constants
alpha-particle-mass: Public constants
alpha-particle-mass-energy-equivalent: Public constants
alpha-particle-mass-energy-equivalent: Public constants
alpha-particle-mass-energy-equivalent: Public constants
alpha-particle-mass-energy-equivalent-in-mev: Public constants
alpha-particle-mass-energy-equivalent-in-mev: Public constants
alpha-particle-mass-energy-equivalent-in-mev: Public constants
alpha-particle-mass-in-u: Public constants
alpha-particle-mass-in-u: Public constants
alpha-particle-mass-in-u: Public constants
alpha-particle-molar-mass: Public constants
alpha-particle-molar-mass: Public constants
alpha-particle-molar-mass: Public constants
alpha-particle-proton-mass-ratio: Public constants
alpha-particle-proton-mass-ratio: Public constants
alpha-particle-proton-mass-ratio: Public constants
alpha-particle-relative-atomic-mass: Public constants
angstrom-star: Public constants
angstrom-star: Public constants
angstrom-star: Public constants
atomic-mass-constant: Public constants
atomic-mass-constant: Public constants
atomic-mass-constant: Public constants
atomic-mass-constant-energy-equivalent: Public constants
atomic-mass-constant-energy-equivalent: Public constants
atomic-mass-constant-energy-equivalent: Public constants
atomic-mass-constant-energy-equivalent-in-mev: Public constants
atomic-mass-constant-energy-equivalent-in-mev: Public constants
atomic-mass-constant-energy-equivalent-in-mev: Public constants
atomic-mass-unit-electron-volt-relationship: Public constants
atomic-mass-unit-electron-volt-relationship: Public constants
atomic-mass-unit-electron-volt-relationship: Public constants
atomic-mass-unit-hartree-relationship: Public constants
atomic-mass-unit-hartree-relationship: Public constants
atomic-mass-unit-hartree-relationship: Public constants
atomic-mass-unit-hertz-relationship: Public constants
atomic-mass-unit-hertz-relationship: Public constants
atomic-mass-unit-hertz-relationship: Public constants
atomic-mass-unit-inverse-meter-relationship: Public constants
atomic-mass-unit-inverse-meter-relationship: Public constants
atomic-mass-unit-inverse-meter-relationship: Public constants
atomic-mass-unit-joule-relationship: Public constants
atomic-mass-unit-joule-relationship: Public constants
atomic-mass-unit-joule-relationship: Public constants
atomic-mass-unit-kelvin-relationship: Public constants
atomic-mass-unit-kelvin-relationship: Public constants
atomic-mass-unit-kelvin-relationship: Public constants
atomic-mass-unit-kilogram-relationship: Public constants
atomic-mass-unit-kilogram-relationship: Public constants
atomic-mass-unit-kilogram-relationship: Public constants
atomic-unit-of-action: Public constants
atomic-unit-of-action: Public constants
atomic-unit-of-action: Public constants
atomic-unit-of-charge: Public constants
atomic-unit-of-charge: Public constants
atomic-unit-of-charge: Public constants
atomic-unit-of-charge-density: Public constants
atomic-unit-of-charge-density: Public constants
atomic-unit-of-charge-density: Public constants
atomic-unit-of-current: Public constants
atomic-unit-of-current: Public constants
atomic-unit-of-current: Public constants
atomic-unit-of-electric-dipole-moment: Public constants
atomic-unit-of-electric-dipole-moment: Public constants
atomic-unit-of-electric-dipole-moment: Public constants
atomic-unit-of-electric-field: Public constants
atomic-unit-of-electric-field: Public constants
atomic-unit-of-electric-field: Public constants
atomic-unit-of-electric-field-gradient: Public constants
atomic-unit-of-electric-field-gradient: Public constants
atomic-unit-of-electric-field-gradient: Public constants
atomic-unit-of-electric-polarizability: Public constants
atomic-unit-of-electric-polarizability: Public constants
atomic-unit-of-electric-polarizability: Public constants
atomic-unit-of-electric-potential: Public constants
atomic-unit-of-electric-potential: Public constants
atomic-unit-of-electric-potential: Public constants
atomic-unit-of-electric-quadrupole-moment: Public constants
atomic-unit-of-electric-quadrupole-moment: Public constants
atomic-unit-of-electric-quadrupole-moment: Public constants
atomic-unit-of-energy: Public constants
atomic-unit-of-energy: Public constants
atomic-unit-of-energy: Public constants
atomic-unit-of-first-hyperpolarizability: Public constants
atomic-unit-of-first-hyperpolarizability: Public constants
atomic-unit-of-first-hyperpolarizability: Public constants
atomic-unit-of-force: Public constants
atomic-unit-of-force: Public constants
atomic-unit-of-force: Public constants
atomic-unit-of-length: Public constants
atomic-unit-of-length: Public constants
atomic-unit-of-length: Public constants
atomic-unit-of-magnetic-dipole-moment: Public constants
atomic-unit-of-magnetic-dipole-moment: Public constants
atomic-unit-of-magnetic-dipole-moment: Public constants
atomic-unit-of-magnetic-flux-density: Public constants
atomic-unit-of-magnetic-flux-density: Public constants
atomic-unit-of-magnetic-flux-density: Public constants
atomic-unit-of-magnetizability: Public constants
atomic-unit-of-magnetizability: Public constants
atomic-unit-of-magnetizability: Public constants
atomic-unit-of-mass: Public constants
atomic-unit-of-mass: Public constants
atomic-unit-of-mass: Public constants
atomic-unit-of-momentum: Public constants
atomic-unit-of-momentum: Public constants
atomic-unit-of-momentum: Public constants
atomic-unit-of-permittivity: Public constants
atomic-unit-of-permittivity: Public constants
atomic-unit-of-permittivity: Public constants
atomic-unit-of-second-hyperpolarizability: Public constants
atomic-unit-of-second-hyperpolarizability: Public constants
atomic-unit-of-second-hyperpolarizability: Public constants
atomic-unit-of-time: Public constants
atomic-unit-of-time: Public constants
atomic-unit-of-time: Public constants
atomic-unit-of-velocity: Public constants
atomic-unit-of-velocity: Public constants
atomic-unit-of-velocity: Public constants
avogadro-constant: Public constants
avogadro-constant: Public constants
avogadro-constant: Public constants

B
bohr-magneton: Public constants
bohr-magneton: Public constants
bohr-magneton: Public constants
bohr-magneton-in-ev/t: Public constants
bohr-magneton-in-ev/t: Public constants
bohr-magneton-in-ev/t: Public constants
bohr-magneton-in-hz/t: Public constants
bohr-magneton-in-hz/t: Public constants
bohr-magneton-in-hz/t: Public constants
bohr-magneton-in-inverse-meter-per-tesla: Public constants
bohr-magneton-in-inverse-meters-per-tesla: Public constants
bohr-magneton-in-inverse-meters-per-tesla: Public constants
bohr-magneton-in-inverse-meters-per-tesla: Public symbol macros
bohr-magneton-in-k/t: Public constants
bohr-magneton-in-k/t: Public constants
bohr-magneton-in-k/t: Public constants
bohr-radius: Public constants
bohr-radius: Public constants
bohr-radius: Public constants
boltzmann-constant: Public constants
boltzmann-constant: Public constants
boltzmann-constant: Public constants
boltzmann-constant-in-ev/k: Public constants
boltzmann-constant-in-ev/k: Public constants
boltzmann-constant-in-ev/k: Public constants
boltzmann-constant-in-hz/k: Public constants
boltzmann-constant-in-hz/k: Public constants
boltzmann-constant-in-hz/k: Public constants
boltzmann-constant-in-inverse-meter-per-kelvin: Public constants
boltzmann-constant-in-inverse-meters-per-kelvin: Public constants
boltzmann-constant-in-inverse-meters-per-kelvin: Public constants
boltzmann-constant-in-inverse-meters-per-kelvin: Public symbol macros

C
characteristic-impedance-of-vacuum: Public constants
characteristic-impedance-of-vacuum: Public constants
characteristic-impedance-of-vacuum: Public constants
classical-electron-radius: Public constants
classical-electron-radius: Public constants
classical-electron-radius: Public constants
compton-wavelength: Public constants
compton-wavelength: Public constants
compton-wavelength: Public constants
compton-wavelength-over-2-pi: Public constants
compton-wavelength-over-2-pi: Public constants
conductance-quantum: Public constants
conductance-quantum: Public constants
conductance-quantum: Public constants
Constant, 220-lattice-spacing-of-silicon: Public constants
Constant, 220-lattice-spacing-of-silicon: Public constants
Constant, alpha-particle-electron-mass-ratio: Public constants
Constant, alpha-particle-electron-mass-ratio: Public constants
Constant, alpha-particle-electron-mass-ratio: Public constants
Constant, alpha-particle-mass: Public constants
Constant, alpha-particle-mass: Public constants
Constant, alpha-particle-mass: Public constants
Constant, alpha-particle-mass-energy-equivalent: Public constants
Constant, alpha-particle-mass-energy-equivalent: Public constants
Constant, alpha-particle-mass-energy-equivalent: Public constants
Constant, alpha-particle-mass-energy-equivalent-in-mev: Public constants
Constant, alpha-particle-mass-energy-equivalent-in-mev: Public constants
Constant, alpha-particle-mass-energy-equivalent-in-mev: Public constants
Constant, alpha-particle-mass-in-u: Public constants
Constant, alpha-particle-mass-in-u: Public constants
Constant, alpha-particle-mass-in-u: Public constants
Constant, alpha-particle-molar-mass: Public constants
Constant, alpha-particle-molar-mass: Public constants
Constant, alpha-particle-molar-mass: Public constants
Constant, alpha-particle-proton-mass-ratio: Public constants
Constant, alpha-particle-proton-mass-ratio: Public constants
Constant, alpha-particle-proton-mass-ratio: Public constants
Constant, alpha-particle-relative-atomic-mass: Public constants
Constant, angstrom-star: Public constants
Constant, angstrom-star: Public constants
Constant, angstrom-star: Public constants
Constant, atomic-mass-constant: Public constants
Constant, atomic-mass-constant: Public constants
Constant, atomic-mass-constant: Public constants
Constant, atomic-mass-constant-energy-equivalent: Public constants
Constant, atomic-mass-constant-energy-equivalent: Public constants
Constant, atomic-mass-constant-energy-equivalent: Public constants
Constant, atomic-mass-constant-energy-equivalent-in-mev: Public constants
Constant, atomic-mass-constant-energy-equivalent-in-mev: Public constants
Constant, atomic-mass-constant-energy-equivalent-in-mev: Public constants
Constant, atomic-mass-unit-electron-volt-relationship: Public constants
Constant, atomic-mass-unit-electron-volt-relationship: Public constants
Constant, atomic-mass-unit-electron-volt-relationship: Public constants
Constant, atomic-mass-unit-hartree-relationship: Public constants
Constant, atomic-mass-unit-hartree-relationship: Public constants
Constant, atomic-mass-unit-hartree-relationship: Public constants
Constant, atomic-mass-unit-hertz-relationship: Public constants
Constant, atomic-mass-unit-hertz-relationship: Public constants
Constant, atomic-mass-unit-hertz-relationship: Public constants
Constant, atomic-mass-unit-inverse-meter-relationship: Public constants
Constant, atomic-mass-unit-inverse-meter-relationship: Public constants
Constant, atomic-mass-unit-inverse-meter-relationship: Public constants
Constant, atomic-mass-unit-joule-relationship: Public constants
Constant, atomic-mass-unit-joule-relationship: Public constants
Constant, atomic-mass-unit-joule-relationship: Public constants
Constant, atomic-mass-unit-kelvin-relationship: Public constants
Constant, atomic-mass-unit-kelvin-relationship: Public constants
Constant, atomic-mass-unit-kelvin-relationship: Public constants
Constant, atomic-mass-unit-kilogram-relationship: Public constants
Constant, atomic-mass-unit-kilogram-relationship: Public constants
Constant, atomic-mass-unit-kilogram-relationship: Public constants
Constant, atomic-unit-of-action: Public constants
Constant, atomic-unit-of-action: Public constants
Constant, atomic-unit-of-action: Public constants
Constant, atomic-unit-of-charge: Public constants
Constant, atomic-unit-of-charge: Public constants
Constant, atomic-unit-of-charge: Public constants
Constant, atomic-unit-of-charge-density: Public constants
Constant, atomic-unit-of-charge-density: Public constants
Constant, atomic-unit-of-charge-density: Public constants
Constant, atomic-unit-of-current: Public constants
Constant, atomic-unit-of-current: Public constants
Constant, atomic-unit-of-current: Public constants
Constant, atomic-unit-of-electric-dipole-moment: Public constants
Constant, atomic-unit-of-electric-dipole-moment: Public constants
Constant, atomic-unit-of-electric-dipole-moment: Public constants
Constant, atomic-unit-of-electric-field: Public constants
Constant, atomic-unit-of-electric-field: Public constants
Constant, atomic-unit-of-electric-field: Public constants
Constant, atomic-unit-of-electric-field-gradient: Public constants
Constant, atomic-unit-of-electric-field-gradient: Public constants
Constant, atomic-unit-of-electric-field-gradient: Public constants
Constant, atomic-unit-of-electric-polarizability: Public constants
Constant, atomic-unit-of-electric-polarizability: Public constants
Constant, atomic-unit-of-electric-polarizability: Public constants
Constant, atomic-unit-of-electric-potential: Public constants
Constant, atomic-unit-of-electric-potential: Public constants
Constant, atomic-unit-of-electric-potential: Public constants
Constant, atomic-unit-of-electric-quadrupole-moment: Public constants
Constant, atomic-unit-of-electric-quadrupole-moment: Public constants
Constant, atomic-unit-of-electric-quadrupole-moment: Public constants
Constant, atomic-unit-of-energy: Public constants
Constant, atomic-unit-of-energy: Public constants
Constant, atomic-unit-of-energy: Public constants
Constant, atomic-unit-of-first-hyperpolarizability: Public constants
Constant, atomic-unit-of-first-hyperpolarizability: Public constants
Constant, atomic-unit-of-first-hyperpolarizability: Public constants
Constant, atomic-unit-of-force: Public constants
Constant, atomic-unit-of-force: Public constants
Constant, atomic-unit-of-force: Public constants
Constant, atomic-unit-of-length: Public constants
Constant, atomic-unit-of-length: Public constants
Constant, atomic-unit-of-length: Public constants
Constant, atomic-unit-of-magnetic-dipole-moment: Public constants
Constant, atomic-unit-of-magnetic-dipole-moment: Public constants
Constant, atomic-unit-of-magnetic-dipole-moment: Public constants
Constant, atomic-unit-of-magnetic-flux-density: Public constants
Constant, atomic-unit-of-magnetic-flux-density: Public constants
Constant, atomic-unit-of-magnetic-flux-density: Public constants
Constant, atomic-unit-of-magnetizability: Public constants
Constant, atomic-unit-of-magnetizability: Public constants
Constant, atomic-unit-of-magnetizability: Public constants
Constant, atomic-unit-of-mass: Public constants
Constant, atomic-unit-of-mass: Public constants
Constant, atomic-unit-of-mass: Public constants
Constant, atomic-unit-of-momentum: Public constants
Constant, atomic-unit-of-momentum: Public constants
Constant, atomic-unit-of-momentum: Public constants
Constant, atomic-unit-of-permittivity: Public constants
Constant, atomic-unit-of-permittivity: Public constants
Constant, atomic-unit-of-permittivity: Public constants
Constant, atomic-unit-of-second-hyperpolarizability: Public constants
Constant, atomic-unit-of-second-hyperpolarizability: Public constants
Constant, atomic-unit-of-second-hyperpolarizability: Public constants
Constant, atomic-unit-of-time: Public constants
Constant, atomic-unit-of-time: Public constants
Constant, atomic-unit-of-time: Public constants
Constant, atomic-unit-of-velocity: Public constants
Constant, atomic-unit-of-velocity: Public constants
Constant, atomic-unit-of-velocity: Public constants
Constant, avogadro-constant: Public constants
Constant, avogadro-constant: Public constants
Constant, avogadro-constant: Public constants
Constant, bohr-magneton: Public constants
Constant, bohr-magneton: Public constants
Constant, bohr-magneton: Public constants
Constant, bohr-magneton-in-ev/t: Public constants
Constant, bohr-magneton-in-ev/t: Public constants
Constant, bohr-magneton-in-ev/t: Public constants
Constant, bohr-magneton-in-hz/t: Public constants
Constant, bohr-magneton-in-hz/t: Public constants
Constant, bohr-magneton-in-hz/t: Public constants
Constant, bohr-magneton-in-inverse-meter-per-tesla: Public constants
Constant, bohr-magneton-in-inverse-meters-per-tesla: Public constants
Constant, bohr-magneton-in-inverse-meters-per-tesla: Public constants
Constant, bohr-magneton-in-k/t: Public constants
Constant, bohr-magneton-in-k/t: Public constants
Constant, bohr-magneton-in-k/t: Public constants
Constant, bohr-radius: Public constants
Constant, bohr-radius: Public constants
Constant, bohr-radius: Public constants
Constant, boltzmann-constant: Public constants
Constant, boltzmann-constant: Public constants
Constant, boltzmann-constant: Public constants
Constant, boltzmann-constant-in-ev/k: Public constants
Constant, boltzmann-constant-in-ev/k: Public constants
Constant, boltzmann-constant-in-ev/k: Public constants
Constant, boltzmann-constant-in-hz/k: Public constants
Constant, boltzmann-constant-in-hz/k: Public constants
Constant, boltzmann-constant-in-hz/k: Public constants
Constant, boltzmann-constant-in-inverse-meter-per-kelvin: Public constants
Constant, boltzmann-constant-in-inverse-meters-per-kelvin: Public constants
Constant, boltzmann-constant-in-inverse-meters-per-kelvin: Public constants
Constant, characteristic-impedance-of-vacuum: Public constants
Constant, characteristic-impedance-of-vacuum: Public constants
Constant, characteristic-impedance-of-vacuum: Public constants
Constant, classical-electron-radius: Public constants
Constant, classical-electron-radius: Public constants
Constant, classical-electron-radius: Public constants
Constant, compton-wavelength: Public constants
Constant, compton-wavelength: Public constants
Constant, compton-wavelength: Public constants
Constant, compton-wavelength-over-2-pi: Public constants
Constant, compton-wavelength-over-2-pi: Public constants
Constant, conductance-quantum: Public constants
Constant, conductance-quantum: Public constants
Constant, conductance-quantum: Public constants
Constant, conventional-value-of-ampere-90: Public constants
Constant, conventional-value-of-coulomb-90: Public constants
Constant, conventional-value-of-farad-90: Public constants
Constant, conventional-value-of-henry-90: Public constants
Constant, conventional-value-of-josephson-constant: Public constants
Constant, conventional-value-of-josephson-constant: Public constants
Constant, conventional-value-of-josephson-constant: Public constants
Constant, conventional-value-of-ohm-90: Public constants
Constant, conventional-value-of-volt-90: Public constants
Constant, conventional-value-of-von-klitzing-constant: Public constants
Constant, conventional-value-of-von-klitzing-constant: Public constants
Constant, conventional-value-of-von-klitzing-constant: Public constants
Constant, conventional-value-of-watt-90: Public constants
Constant, copper-x-unit: Public constants
Constant, cu-x-unit: Public constants
Constant, cu-x-unit: Public constants
Constant, deuteron-electron-magnetic-moment-ratio: Public constants
Constant, deuteron-electron-magnetic-moment-ratio: Public constants
Constant, deuteron-electron-magnetic-moment-ratio: Public constants
Constant, deuteron-electron-mass-ratio: Public constants
Constant, deuteron-electron-mass-ratio: Public constants
Constant, deuteron-electron-mass-ratio: Public constants
Constant, deuteron-g-factor: Public constants
Constant, deuteron-g-factor: Public constants
Constant, deuteron-g-factor: Public constants
Constant, deuteron-magnetic-moment: Public constants
Constant, deuteron-magnetic-moment: Public constants
Constant, deuteron-magnetic-moment: Public constants
Constant, deuteron-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, deuteron-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, deuteron-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, deuteron-mass: Public constants
Constant, deuteron-mass: Public constants
Constant, deuteron-mass: Public constants
Constant, deuteron-mass-energy-equivalent: Public constants
Constant, deuteron-mass-energy-equivalent: Public constants
Constant, deuteron-mass-energy-equivalent: Public constants
Constant, deuteron-mass-energy-equivalent-in-mev: Public constants
Constant, deuteron-mass-energy-equivalent-in-mev: Public constants
Constant, deuteron-mass-energy-equivalent-in-mev: Public constants
Constant, deuteron-mass-in-u: Public constants
Constant, deuteron-mass-in-u: Public constants
Constant, deuteron-mass-in-u: Public constants
Constant, deuteron-molar-mass: Public constants
Constant, deuteron-molar-mass: Public constants
Constant, deuteron-molar-mass: Public constants
Constant, deuteron-neutron-magnetic-moment-ratio: Public constants
Constant, deuteron-neutron-magnetic-moment-ratio: Public constants
Constant, deuteron-neutron-magnetic-moment-ratio: Public constants
Constant, deuteron-proton-magnetic-moment-ratio: Public constants
Constant, deuteron-proton-magnetic-moment-ratio: Public constants
Constant, deuteron-proton-magnetic-moment-ratio: Public constants
Constant, deuteron-proton-mass-ratio: Public constants
Constant, deuteron-proton-mass-ratio: Public constants
Constant, deuteron-proton-mass-ratio: Public constants
Constant, deuteron-relative-atomic-mass: Public constants
Constant, deuteron-rms-charge-radius: Public constants
Constant, deuteron-rms-charge-radius: Public constants
Constant, deuteron-rms-charge-radius: Public constants
Constant, electric-constant: Public constants
Constant, electric-constant: Public constants
Constant, electron-charge-to-mass-quotient: Public constants
Constant, electron-charge-to-mass-quotient: Public constants
Constant, electron-charge-to-mass-quotient: Public constants
Constant, electron-deuteron-magnetic-moment-ratio: Public constants
Constant, electron-deuteron-magnetic-moment-ratio: Public constants
Constant, electron-deuteron-magnetic-moment-ratio: Public constants
Constant, electron-deuteron-mass-ratio: Public constants
Constant, electron-deuteron-mass-ratio: Public constants
Constant, electron-deuteron-mass-ratio: Public constants
Constant, electron-g-factor: Public constants
Constant, electron-g-factor: Public constants
Constant, electron-g-factor: Public constants
Constant, electron-gyromagnetic-ratio: Public constants
Constant, electron-gyromagnetic-ratio: Public constants
Constant, electron-gyromagnetic-ratio: Public constants
Constant, electron-gyromagnetic-ratio-in-mhz/t: Public constants
Constant, electron-gyromagnetic-ratio-over-2-pi: Public constants
Constant, electron-gyromagnetic-ratio-over-2-pi: Public constants
Constant, electron-helion-mass-ratio: Public constants
Constant, electron-helion-mass-ratio: Public constants
Constant, electron-helion-mass-ratio: Public constants
Constant, electron-magnetic-moment: Public constants
Constant, electron-magnetic-moment: Public constants
Constant, electron-magnetic-moment: Public constants
Constant, electron-magnetic-moment-anomaly: Public constants
Constant, electron-magnetic-moment-anomaly: Public constants
Constant, electron-magnetic-moment-anomaly: Public constants
Constant, electron-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, electron-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, electron-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, electron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, electron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, electron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, electron-mass: Public constants
Constant, electron-mass: Public constants
Constant, electron-mass: Public constants
Constant, electron-mass-energy-equivalent: Public constants
Constant, electron-mass-energy-equivalent: Public constants
Constant, electron-mass-energy-equivalent: Public constants
Constant, electron-mass-energy-equivalent-in-mev: Public constants
Constant, electron-mass-energy-equivalent-in-mev: Public constants
Constant, electron-mass-energy-equivalent-in-mev: Public constants
Constant, electron-mass-in-u: Public constants
Constant, electron-mass-in-u: Public constants
Constant, electron-mass-in-u: Public constants
Constant, electron-molar-mass: Public constants
Constant, electron-molar-mass: Public constants
Constant, electron-molar-mass: Public constants
Constant, electron-muon-magnetic-moment-ratio: Public constants
Constant, electron-muon-magnetic-moment-ratio: Public constants
Constant, electron-muon-magnetic-moment-ratio: Public constants
Constant, electron-muon-mass-ratio: Public constants
Constant, electron-muon-mass-ratio: Public constants
Constant, electron-muon-mass-ratio: Public constants
Constant, electron-neutron-magnetic-moment-ratio: Public constants
Constant, electron-neutron-magnetic-moment-ratio: Public constants
Constant, electron-neutron-magnetic-moment-ratio: Public constants
Constant, electron-neutron-mass-ratio: Public constants
Constant, electron-neutron-mass-ratio: Public constants
Constant, electron-neutron-mass-ratio: Public constants
Constant, electron-proton-magnetic-moment-ratio: Public constants
Constant, electron-proton-magnetic-moment-ratio: Public constants
Constant, electron-proton-magnetic-moment-ratio: Public constants
Constant, electron-proton-mass-ratio: Public constants
Constant, electron-proton-mass-ratio: Public constants
Constant, electron-proton-mass-ratio: Public constants
Constant, electron-relative-atomic-mass: Public constants
Constant, electron-tau-mass-ratio: Public constants
Constant, electron-tau-mass-ratio: Public constants
Constant, electron-tau-mass-ratio: Public constants
Constant, electron-to-alpha-particle-mass-ratio: Public constants
Constant, electron-to-alpha-particle-mass-ratio: Public constants
Constant, electron-to-alpha-particle-mass-ratio: Public constants
Constant, electron-to-shielded-helion-magnetic-moment-ratio: Public constants
Constant, electron-to-shielded-helion-magnetic-moment-ratio: Public constants
Constant, electron-to-shielded-helion-magnetic-moment-ratio: Public constants
Constant, electron-to-shielded-proton-magnetic-moment-ratio: Public constants
Constant, electron-to-shielded-proton-magnetic-moment-ratio: Public constants
Constant, electron-to-shielded-proton-magnetic-moment-ratio: Public constants
Constant, electron-triton-mass-ratio: Public constants
Constant, electron-triton-mass-ratio: Public constants
Constant, electron-triton-mass-ratio: Public constants
Constant, electron-volt: Public constants
Constant, electron-volt: Public constants
Constant, electron-volt: Public constants
Constant, electron-volt-atomic-mass-unit-relationship: Public constants
Constant, electron-volt-atomic-mass-unit-relationship: Public constants
Constant, electron-volt-atomic-mass-unit-relationship: Public constants
Constant, electron-volt-hartree-relationship: Public constants
Constant, electron-volt-hartree-relationship: Public constants
Constant, electron-volt-hartree-relationship: Public constants
Constant, electron-volt-hertz-relationship: Public constants
Constant, electron-volt-hertz-relationship: Public constants
Constant, electron-volt-hertz-relationship: Public constants
Constant, electron-volt-inverse-meter-relationship: Public constants
Constant, electron-volt-inverse-meter-relationship: Public constants
Constant, electron-volt-inverse-meter-relationship: Public constants
Constant, electron-volt-joule-relationship: Public constants
Constant, electron-volt-joule-relationship: Public constants
Constant, electron-volt-joule-relationship: Public constants
Constant, electron-volt-kelvin-relationship: Public constants
Constant, electron-volt-kelvin-relationship: Public constants
Constant, electron-volt-kelvin-relationship: Public constants
Constant, electron-volt-kilogram-relationship: Public constants
Constant, electron-volt-kilogram-relationship: Public constants
Constant, electron-volt-kilogram-relationship: Public constants
Constant, elementary-charge: Public constants
Constant, elementary-charge: Public constants
Constant, elementary-charge: Public constants
Constant, elementary-charge-over-h: Public constants
Constant, elementary-charge-over-h: Public constants
Constant, elementary-charge-over-h-bar: Public constants
Constant, faraday-constant: Public constants
Constant, faraday-constant: Public constants
Constant, faraday-constant: Public constants
Constant, faraday-constant-for-conventional-electric-current: Public constants
Constant, faraday-constant-for-conventional-electric-current: Public constants
Constant, fermi-coupling-constant: Public constants
Constant, fermi-coupling-constant: Public constants
Constant, fermi-coupling-constant: Public constants
Constant, fine-structure-constant: Public constants
Constant, fine-structure-constant: Public constants
Constant, fine-structure-constant: Public constants
Constant, first-radiation-constant: Public constants
Constant, first-radiation-constant: Public constants
Constant, first-radiation-constant: Public constants
Constant, first-radiation-constant-for-spectral-radiance: Public constants
Constant, first-radiation-constant-for-spectral-radiance: Public constants
Constant, first-radiation-constant-for-spectral-radiance: Public constants
Constant, hartree-atomic-mass-unit-relationship: Public constants
Constant, hartree-atomic-mass-unit-relationship: Public constants
Constant, hartree-atomic-mass-unit-relationship: Public constants
Constant, hartree-electron-volt-relationship: Public constants
Constant, hartree-electron-volt-relationship: Public constants
Constant, hartree-electron-volt-relationship: Public constants
Constant, hartree-energy: Public constants
Constant, hartree-energy: Public constants
Constant, hartree-energy: Public constants
Constant, hartree-energy-in-ev: Public constants
Constant, hartree-energy-in-ev: Public constants
Constant, hartree-energy-in-ev: Public constants
Constant, hartree-hertz-relationship: Public constants
Constant, hartree-hertz-relationship: Public constants
Constant, hartree-hertz-relationship: Public constants
Constant, hartree-inverse-meter-relationship: Public constants
Constant, hartree-inverse-meter-relationship: Public constants
Constant, hartree-inverse-meter-relationship: Public constants
Constant, hartree-joule-relationship: Public constants
Constant, hartree-joule-relationship: Public constants
Constant, hartree-joule-relationship: Public constants
Constant, hartree-kelvin-relationship: Public constants
Constant, hartree-kelvin-relationship: Public constants
Constant, hartree-kelvin-relationship: Public constants
Constant, hartree-kilogram-relationship: Public constants
Constant, hartree-kilogram-relationship: Public constants
Constant, hartree-kilogram-relationship: Public constants
Constant, helion-electron-mass-ratio: Public constants
Constant, helion-electron-mass-ratio: Public constants
Constant, helion-electron-mass-ratio: Public constants
Constant, helion-g-factor: Public constants
Constant, helion-g-factor: Public constants
Constant, helion-g-factor: Public constants
Constant, helion-magnetic-moment: Public constants
Constant, helion-magnetic-moment: Public constants
Constant, helion-magnetic-moment: Public constants
Constant, helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, helion-mass: Public constants
Constant, helion-mass: Public constants
Constant, helion-mass: Public constants
Constant, helion-mass-energy-equivalent: Public constants
Constant, helion-mass-energy-equivalent: Public constants
Constant, helion-mass-energy-equivalent: Public constants
Constant, helion-mass-energy-equivalent-in-mev: Public constants
Constant, helion-mass-energy-equivalent-in-mev: Public constants
Constant, helion-mass-energy-equivalent-in-mev: Public constants
Constant, helion-mass-in-u: Public constants
Constant, helion-mass-in-u: Public constants
Constant, helion-mass-in-u: Public constants
Constant, helion-molar-mass: Public constants
Constant, helion-molar-mass: Public constants
Constant, helion-molar-mass: Public constants
Constant, helion-proton-mass-ratio: Public constants
Constant, helion-proton-mass-ratio: Public constants
Constant, helion-proton-mass-ratio: Public constants
Constant, helion-relative-atomic-mass: Public constants
Constant, helion-shielding-shift: Public constants
Constant, hertz-atomic-mass-unit-relationship: Public constants
Constant, hertz-atomic-mass-unit-relationship: Public constants
Constant, hertz-atomic-mass-unit-relationship: Public constants
Constant, hertz-electron-volt-relationship: Public constants
Constant, hertz-electron-volt-relationship: Public constants
Constant, hertz-electron-volt-relationship: Public constants
Constant, hertz-hartree-relationship: Public constants
Constant, hertz-hartree-relationship: Public constants
Constant, hertz-hartree-relationship: Public constants
Constant, hertz-inverse-meter-relationship: Public constants
Constant, hertz-inverse-meter-relationship: Public constants
Constant, hertz-inverse-meter-relationship: Public constants
Constant, hertz-joule-relationship: Public constants
Constant, hertz-joule-relationship: Public constants
Constant, hertz-joule-relationship: Public constants
Constant, hertz-kelvin-relationship: Public constants
Constant, hertz-kelvin-relationship: Public constants
Constant, hertz-kelvin-relationship: Public constants
Constant, hertz-kilogram-relationship: Public constants
Constant, hertz-kilogram-relationship: Public constants
Constant, hertz-kilogram-relationship: Public constants
Constant, hyperfine-transition-frequency-of-caesium-133: Public constants
Constant, inverse-fine-structure-constant: Public constants
Constant, inverse-fine-structure-constant: Public constants
Constant, inverse-fine-structure-constant: Public constants
Constant, inverse-meter-atomic-mass-unit-relationship: Public constants
Constant, inverse-meter-atomic-mass-unit-relationship: Public constants
Constant, inverse-meter-atomic-mass-unit-relationship: Public constants
Constant, inverse-meter-electron-volt-relationship: Public constants
Constant, inverse-meter-electron-volt-relationship: Public constants
Constant, inverse-meter-electron-volt-relationship: Public constants
Constant, inverse-meter-hartree-relationship: Public constants
Constant, inverse-meter-hartree-relationship: Public constants
Constant, inverse-meter-hartree-relationship: Public constants
Constant, inverse-meter-hertz-relationship: Public constants
Constant, inverse-meter-hertz-relationship: Public constants
Constant, inverse-meter-hertz-relationship: Public constants
Constant, inverse-meter-joule-relationship: Public constants
Constant, inverse-meter-joule-relationship: Public constants
Constant, inverse-meter-joule-relationship: Public constants
Constant, inverse-meter-kelvin-relationship: Public constants
Constant, inverse-meter-kelvin-relationship: Public constants
Constant, inverse-meter-kelvin-relationship: Public constants
Constant, inverse-meter-kilogram-relationship: Public constants
Constant, inverse-meter-kilogram-relationship: Public constants
Constant, inverse-meter-kilogram-relationship: Public constants
Constant, inverse-of-conductance-quantum: Public constants
Constant, inverse-of-conductance-quantum: Public constants
Constant, inverse-of-conductance-quantum: Public constants
Constant, josephson-constant: Public constants
Constant, josephson-constant: Public constants
Constant, josephson-constant: Public constants
Constant, joule-atomic-mass-unit-relationship: Public constants
Constant, joule-atomic-mass-unit-relationship: Public constants
Constant, joule-atomic-mass-unit-relationship: Public constants
Constant, joule-electron-volt-relationship: Public constants
Constant, joule-electron-volt-relationship: Public constants
Constant, joule-electron-volt-relationship: Public constants
Constant, joule-hartree-relationship: Public constants
Constant, joule-hartree-relationship: Public constants
Constant, joule-hartree-relationship: Public constants
Constant, joule-hertz-relationship: Public constants
Constant, joule-hertz-relationship: Public constants
Constant, joule-hertz-relationship: Public constants
Constant, joule-inverse-meter-relationship: Public constants
Constant, joule-inverse-meter-relationship: Public constants
Constant, joule-inverse-meter-relationship: Public constants
Constant, joule-kelvin-relationship: Public constants
Constant, joule-kelvin-relationship: Public constants
Constant, joule-kelvin-relationship: Public constants
Constant, joule-kilogram-relationship: Public constants
Constant, joule-kilogram-relationship: Public constants
Constant, joule-kilogram-relationship: Public constants
Constant, kelvin-atomic-mass-unit-relationship: Public constants
Constant, kelvin-atomic-mass-unit-relationship: Public constants
Constant, kelvin-atomic-mass-unit-relationship: Public constants
Constant, kelvin-electron-volt-relationship: Public constants
Constant, kelvin-electron-volt-relationship: Public constants
Constant, kelvin-electron-volt-relationship: Public constants
Constant, kelvin-hartree-relationship: Public constants
Constant, kelvin-hartree-relationship: Public constants
Constant, kelvin-hartree-relationship: Public constants
Constant, kelvin-hertz-relationship: Public constants
Constant, kelvin-hertz-relationship: Public constants
Constant, kelvin-hertz-relationship: Public constants
Constant, kelvin-inverse-meter-relationship: Public constants
Constant, kelvin-inverse-meter-relationship: Public constants
Constant, kelvin-inverse-meter-relationship: Public constants
Constant, kelvin-joule-relationship: Public constants
Constant, kelvin-joule-relationship: Public constants
Constant, kelvin-joule-relationship: Public constants
Constant, kelvin-kilogram-relationship: Public constants
Constant, kelvin-kilogram-relationship: Public constants
Constant, kelvin-kilogram-relationship: Public constants
Constant, kilogram-atomic-mass-unit-relationship: Public constants
Constant, kilogram-atomic-mass-unit-relationship: Public constants
Constant, kilogram-atomic-mass-unit-relationship: Public constants
Constant, kilogram-electron-volt-relationship: Public constants
Constant, kilogram-electron-volt-relationship: Public constants
Constant, kilogram-electron-volt-relationship: Public constants
Constant, kilogram-hartree-relationship: Public constants
Constant, kilogram-hartree-relationship: Public constants
Constant, kilogram-hartree-relationship: Public constants
Constant, kilogram-hertz-relationship: Public constants
Constant, kilogram-hertz-relationship: Public constants
Constant, kilogram-hertz-relationship: Public constants
Constant, kilogram-inverse-meter-relationship: Public constants
Constant, kilogram-inverse-meter-relationship: Public constants
Constant, kilogram-inverse-meter-relationship: Public constants
Constant, kilogram-joule-relationship: Public constants
Constant, kilogram-joule-relationship: Public constants
Constant, kilogram-joule-relationship: Public constants
Constant, kilogram-kelvin-relationship: Public constants
Constant, kilogram-kelvin-relationship: Public constants
Constant, kilogram-kelvin-relationship: Public constants
Constant, lattice-parameter-of-silicon: Public constants
Constant, lattice-parameter-of-silicon: Public constants
Constant, lattice-parameter-of-silicon: Public constants
Constant, lattice-spacing-of-ideal-silicon-at-220: Public constants
Constant, loschmidt-constant-at-273.15k-and-100000pa: Public constants
Constant, loschmidt-constant-at-273.15k-and-100000pa: Public constants
Constant, loschmidt-constant-at-273.15k-and-100000pa: Public constants
Constant, loschmidt-constant-at-273.15k-and-101325pa: Public constants
Constant, loschmidt-constant-at-273.15k-and-101325pa: Public constants
Constant, loschmidt-constant-at-273.15k-and-101325pa: Public constants
Constant, luminous-efficacy: Public constants
Constant, magnetic-constant: Public constants
Constant, magnetic-constant: Public constants
Constant, magnetic-flux-quantum: Public constants
Constant, magnetic-flux-quantum: Public constants
Constant, magnetic-flux-quantum: Public constants
Constant, mo-x-unit: Public constants
Constant, mo-x-unit: Public constants
Constant, molar-gas-constant: Public constants
Constant, molar-gas-constant: Public constants
Constant, molar-gas-constant: Public constants
Constant, molar-mass-constant: Public constants
Constant, molar-mass-constant: Public constants
Constant, molar-mass-constant: Public constants
Constant, molar-mass-of-carbon-12: Public constants
Constant, molar-mass-of-carbon-12: Public constants
Constant, molar-mass-of-carbon-12: Public constants
Constant, molar-planck-constant: Public constants
Constant, molar-planck-constant: Public constants
Constant, molar-planck-constant: Public constants
Constant, molar-planck-constant-times-c: Public constants
Constant, molar-planck-constant-times-c: Public constants
Constant, molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public constants
Constant, molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public constants
Constant, molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public constants
Constant, molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public constants
Constant, molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public constants
Constant, molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public constants
Constant, molar-volume-of-silicon: Public constants
Constant, molar-volume-of-silicon: Public constants
Constant, molar-volume-of-silicon: Public constants
Constant, molybdenum-x-unit: Public constants
Constant, muon-compton-wavelength: Public constants
Constant, muon-compton-wavelength: Public constants
Constant, muon-compton-wavelength: Public constants
Constant, muon-compton-wavelength-over-2-pi: Public constants
Constant, muon-compton-wavelength-over-2-pi: Public constants
Constant, muon-electron-mass-ratio: Public constants
Constant, muon-electron-mass-ratio: Public constants
Constant, muon-electron-mass-ratio: Public constants
Constant, muon-g-factor: Public constants
Constant, muon-g-factor: Public constants
Constant, muon-g-factor: Public constants
Constant, muon-magnetic-moment: Public constants
Constant, muon-magnetic-moment: Public constants
Constant, muon-magnetic-moment: Public constants
Constant, muon-magnetic-moment-anomaly: Public constants
Constant, muon-magnetic-moment-anomaly: Public constants
Constant, muon-magnetic-moment-anomaly: Public constants
Constant, muon-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, muon-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, muon-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, muon-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, muon-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, muon-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, muon-mass: Public constants
Constant, muon-mass: Public constants
Constant, muon-mass: Public constants
Constant, muon-mass-energy-equivalent: Public constants
Constant, muon-mass-energy-equivalent: Public constants
Constant, muon-mass-energy-equivalent: Public constants
Constant, muon-mass-energy-equivalent-in-mev: Public constants
Constant, muon-mass-energy-equivalent-in-mev: Public constants
Constant, muon-mass-energy-equivalent-in-mev: Public constants
Constant, muon-mass-in-u: Public constants
Constant, muon-mass-in-u: Public constants
Constant, muon-mass-in-u: Public constants
Constant, muon-molar-mass: Public constants
Constant, muon-molar-mass: Public constants
Constant, muon-molar-mass: Public constants
Constant, muon-neutron-mass-ratio: Public constants
Constant, muon-neutron-mass-ratio: Public constants
Constant, muon-neutron-mass-ratio: Public constants
Constant, muon-proton-magnetic-moment-ratio: Public constants
Constant, muon-proton-magnetic-moment-ratio: Public constants
Constant, muon-proton-magnetic-moment-ratio: Public constants
Constant, muon-proton-mass-ratio: Public constants
Constant, muon-proton-mass-ratio: Public constants
Constant, muon-proton-mass-ratio: Public constants
Constant, muon-tau-mass-ratio: Public constants
Constant, muon-tau-mass-ratio: Public constants
Constant, muon-tau-mass-ratio: Public constants
Constant, natural-unit-of-action: Public constants
Constant, natural-unit-of-action: Public constants
Constant, natural-unit-of-action: Public constants
Constant, natural-unit-of-action-in-ev-s: Public constants
Constant, natural-unit-of-action-in-ev-s: Public constants
Constant, natural-unit-of-action-in-ev-s: Public constants
Constant, natural-unit-of-energy: Public constants
Constant, natural-unit-of-energy: Public constants
Constant, natural-unit-of-energy: Public constants
Constant, natural-unit-of-energy-in-mev: Public constants
Constant, natural-unit-of-energy-in-mev: Public constants
Constant, natural-unit-of-energy-in-mev: Public constants
Constant, natural-unit-of-length: Public constants
Constant, natural-unit-of-length: Public constants
Constant, natural-unit-of-length: Public constants
Constant, natural-unit-of-mass: Public constants
Constant, natural-unit-of-mass: Public constants
Constant, natural-unit-of-mass: Public constants
Constant, natural-unit-of-momentum: Public constants
Constant, natural-unit-of-momentum: Public constants
Constant, natural-unit-of-momentum: Public constants
Constant, natural-unit-of-momentum-in-mev/c: Public constants
Constant, natural-unit-of-momentum-in-mev/c: Public constants
Constant, natural-unit-of-momentum-in-mev/c: Public constants
Constant, natural-unit-of-time: Public constants
Constant, natural-unit-of-time: Public constants
Constant, natural-unit-of-time: Public constants
Constant, natural-unit-of-velocity: Public constants
Constant, natural-unit-of-velocity: Public constants
Constant, natural-unit-of-velocity: Public constants
Constant, neutron-compton-wavelength: Public constants
Constant, neutron-compton-wavelength: Public constants
Constant, neutron-compton-wavelength: Public constants
Constant, neutron-compton-wavelength-over-2-pi: Public constants
Constant, neutron-compton-wavelength-over-2-pi: Public constants
Constant, neutron-electron-magnetic-moment-ratio: Public constants
Constant, neutron-electron-magnetic-moment-ratio: Public constants
Constant, neutron-electron-magnetic-moment-ratio: Public constants
Constant, neutron-electron-mass-ratio: Public constants
Constant, neutron-electron-mass-ratio: Public constants
Constant, neutron-electron-mass-ratio: Public constants
Constant, neutron-g-factor: Public constants
Constant, neutron-g-factor: Public constants
Constant, neutron-g-factor: Public constants
Constant, neutron-gyromagnetic-ratio: Public constants
Constant, neutron-gyromagnetic-ratio: Public constants
Constant, neutron-gyromagnetic-ratio: Public constants
Constant, neutron-gyromagnetic-ratio-in-mhz/t: Public constants
Constant, neutron-gyromagnetic-ratio-over-2-pi: Public constants
Constant, neutron-gyromagnetic-ratio-over-2-pi: Public constants
Constant, neutron-magnetic-moment: Public constants
Constant, neutron-magnetic-moment: Public constants
Constant, neutron-magnetic-moment: Public constants
Constant, neutron-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, neutron-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, neutron-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, neutron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, neutron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, neutron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, neutron-mass: Public constants
Constant, neutron-mass: Public constants
Constant, neutron-mass: Public constants
Constant, neutron-mass-energy-equivalent: Public constants
Constant, neutron-mass-energy-equivalent: Public constants
Constant, neutron-mass-energy-equivalent: Public constants
Constant, neutron-mass-energy-equivalent-in-mev: Public constants
Constant, neutron-mass-energy-equivalent-in-mev: Public constants
Constant, neutron-mass-energy-equivalent-in-mev: Public constants
Constant, neutron-mass-in-u: Public constants
Constant, neutron-mass-in-u: Public constants
Constant, neutron-mass-in-u: Public constants
Constant, neutron-molar-mass: Public constants
Constant, neutron-molar-mass: Public constants
Constant, neutron-molar-mass: Public constants
Constant, neutron-muon-mass-ratio: Public constants
Constant, neutron-muon-mass-ratio: Public constants
Constant, neutron-muon-mass-ratio: Public constants
Constant, neutron-proton-magnetic-moment-ratio: Public constants
Constant, neutron-proton-magnetic-moment-ratio: Public constants
Constant, neutron-proton-magnetic-moment-ratio: Public constants
Constant, neutron-proton-mass-difference: Public constants
Constant, neutron-proton-mass-difference: Public constants
Constant, neutron-proton-mass-difference: Public constants
Constant, neutron-proton-mass-difference-energy-equivalent: Public constants
Constant, neutron-proton-mass-difference-energy-equivalent: Public constants
Constant, neutron-proton-mass-difference-energy-equivalent: Public constants
Constant, neutron-proton-mass-difference-energy-equivalent-in-mev: Public constants
Constant, neutron-proton-mass-difference-energy-equivalent-in-mev: Public constants
Constant, neutron-proton-mass-difference-energy-equivalent-in-mev: Public constants
Constant, neutron-proton-mass-difference-in-u: Public constants
Constant, neutron-proton-mass-difference-in-u: Public constants
Constant, neutron-proton-mass-difference-in-u: Public constants
Constant, neutron-proton-mass-ratio: Public constants
Constant, neutron-proton-mass-ratio: Public constants
Constant, neutron-proton-mass-ratio: Public constants
Constant, neutron-relative-atomic-mass: Public constants
Constant, neutron-tau-mass-ratio: Public constants
Constant, neutron-tau-mass-ratio: Public constants
Constant, neutron-tau-mass-ratio: Public constants
Constant, neutron-to-shielded-proton-magnetic-moment-ratio: Public constants
Constant, neutron-to-shielded-proton-magnetic-moment-ratio: Public constants
Constant, neutron-to-shielded-proton-magnetic-moment-ratio: Public constants
Constant, newtonian-constant-of-gravitation: Public constants
Constant, newtonian-constant-of-gravitation: Public constants
Constant, newtonian-constant-of-gravitation: Public constants
Constant, newtonian-constant-of-gravitation-over-h-bar-c: Public constants
Constant, newtonian-constant-of-gravitation-over-h-bar-c: Public constants
Constant, newtonian-constant-of-gravitation-over-h-bar-c: Public constants
Constant, nuclear-magneton: Public constants
Constant, nuclear-magneton: Public constants
Constant, nuclear-magneton: Public constants
Constant, nuclear-magneton-in-ev/t: Public constants
Constant, nuclear-magneton-in-ev/t: Public constants
Constant, nuclear-magneton-in-ev/t: Public constants
Constant, nuclear-magneton-in-inverse-meter-per-tesla: Public constants
Constant, nuclear-magneton-in-inverse-meters-per-tesla: Public constants
Constant, nuclear-magneton-in-inverse-meters-per-tesla: Public constants
Constant, nuclear-magneton-in-k/t: Public constants
Constant, nuclear-magneton-in-k/t: Public constants
Constant, nuclear-magneton-in-k/t: Public constants
Constant, nuclear-magneton-in-mhz/t: Public constants
Constant, nuclear-magneton-in-mhz/t: Public constants
Constant, nuclear-magneton-in-mhz/t: Public constants
Constant, planck-constant: Public constants
Constant, planck-constant: Public constants
Constant, planck-constant: Public constants
Constant, planck-constant-in-ev-s: Public constants
Constant, planck-constant-in-ev-s: Public constants
Constant, planck-constant-in-ev/hz: Public constants
Constant, planck-constant-over-2-pi: Public constants
Constant, planck-constant-over-2-pi: Public constants
Constant, planck-constant-over-2-pi-in-ev-s: Public constants
Constant, planck-constant-over-2-pi-in-ev-s: Public constants
Constant, planck-constant-over-2-pi-times-c-in-mev-fm: Public constants
Constant, planck-constant-over-2-pi-times-c-in-mev-fm: Public constants
Constant, planck-length: Public constants
Constant, planck-length: Public constants
Constant, planck-length: Public constants
Constant, planck-mass: Public constants
Constant, planck-mass: Public constants
Constant, planck-mass: Public constants
Constant, planck-mass-energy-equivalent-in-gev: Public constants
Constant, planck-mass-energy-equivalent-in-gev: Public constants
Constant, planck-mass-energy-equivalent-in-gev: Public constants
Constant, planck-temperature: Public constants
Constant, planck-temperature: Public constants
Constant, planck-temperature: Public constants
Constant, planck-time: Public constants
Constant, planck-time: Public constants
Constant, planck-time: Public constants
Constant, proton-charge-to-mass-quotient: Public constants
Constant, proton-charge-to-mass-quotient: Public constants
Constant, proton-charge-to-mass-quotient: Public constants
Constant, proton-compton-wavelength: Public constants
Constant, proton-compton-wavelength: Public constants
Constant, proton-compton-wavelength: Public constants
Constant, proton-compton-wavelength-over-2-pi: Public constants
Constant, proton-compton-wavelength-over-2-pi: Public constants
Constant, proton-electron-mass-ratio: Public constants
Constant, proton-electron-mass-ratio: Public constants
Constant, proton-electron-mass-ratio: Public constants
Constant, proton-g-factor: Public constants
Constant, proton-g-factor: Public constants
Constant, proton-g-factor: Public constants
Constant, proton-gyromagnetic-ratio: Public constants
Constant, proton-gyromagnetic-ratio: Public constants
Constant, proton-gyromagnetic-ratio: Public constants
Constant, proton-gyromagnetic-ratio-in-mhz/t: Public constants
Constant, proton-gyromagnetic-ratio-over-2-pi: Public constants
Constant, proton-gyromagnetic-ratio-over-2-pi: Public constants
Constant, proton-magnetic-moment: Public constants
Constant, proton-magnetic-moment: Public constants
Constant, proton-magnetic-moment: Public constants
Constant, proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, proton-magnetic-shielding-correction: Public constants
Constant, proton-magnetic-shielding-correction: Public constants
Constant, proton-magnetic-shielding-correction: Public constants
Constant, proton-mass: Public constants
Constant, proton-mass: Public constants
Constant, proton-mass: Public constants
Constant, proton-mass-energy-equivalent: Public constants
Constant, proton-mass-energy-equivalent: Public constants
Constant, proton-mass-energy-equivalent: Public constants
Constant, proton-mass-energy-equivalent-in-mev: Public constants
Constant, proton-mass-energy-equivalent-in-mev: Public constants
Constant, proton-mass-energy-equivalent-in-mev: Public constants
Constant, proton-mass-in-u: Public constants
Constant, proton-mass-in-u: Public constants
Constant, proton-mass-in-u: Public constants
Constant, proton-molar-mass: Public constants
Constant, proton-molar-mass: Public constants
Constant, proton-molar-mass: Public constants
Constant, proton-muon-mass-ratio: Public constants
Constant, proton-muon-mass-ratio: Public constants
Constant, proton-muon-mass-ratio: Public constants
Constant, proton-neutron-magnetic-moment-ratio: Public constants
Constant, proton-neutron-magnetic-moment-ratio: Public constants
Constant, proton-neutron-magnetic-moment-ratio: Public constants
Constant, proton-neutron-mass-ratio: Public constants
Constant, proton-neutron-mass-ratio: Public constants
Constant, proton-neutron-mass-ratio: Public constants
Constant, proton-relative-atomic-mass: Public constants
Constant, proton-rms-charge-radius: Public constants
Constant, proton-rms-charge-radius: Public constants
Constant, proton-rms-charge-radius: Public constants
Constant, proton-tau-mass-ratio: Public constants
Constant, proton-tau-mass-ratio: Public constants
Constant, proton-tau-mass-ratio: Public constants
Constant, quantum-of-circulation: Public constants
Constant, quantum-of-circulation: Public constants
Constant, quantum-of-circulation: Public constants
Constant, quantum-of-circulation-times-2: Public constants
Constant, quantum-of-circulation-times-2: Public constants
Constant, quantum-of-circulation-times-2: Public constants
Constant, reduced-compton-wavelength: Public constants
Constant, reduced-muon-compton-wavelength: Public constants
Constant, reduced-neutron-compton-wavelength: Public constants
Constant, reduced-planck-constant: Public constants
Constant, reduced-planck-constant-in-ev-s: Public constants
Constant, reduced-planck-constant-times-c-in-mev-fm: Public constants
Constant, reduced-proton-compton-wavelength: Public constants
Constant, reduced-tau-compton-wavelength: Public constants
Constant, rydberg-constant: Public constants
Constant, rydberg-constant: Public constants
Constant, rydberg-constant: Public constants
Constant, rydberg-constant-times-c-in-hz: Public constants
Constant, rydberg-constant-times-c-in-hz: Public constants
Constant, rydberg-constant-times-c-in-hz: Public constants
Constant, rydberg-constant-times-hc-in-ev: Public constants
Constant, rydberg-constant-times-hc-in-ev: Public constants
Constant, rydberg-constant-times-hc-in-ev: Public constants
Constant, rydberg-constant-times-hc-in-j: Public constants
Constant, rydberg-constant-times-hc-in-j: Public constants
Constant, rydberg-constant-times-hc-in-j: Public constants
Constant, sackur-tetrode-constant-at-1k-and-100000pa: Public constants
Constant, sackur-tetrode-constant-at-1k-and-100000pa: Public constants
Constant, sackur-tetrode-constant-at-1k-and-100000pa: Public constants
Constant, sackur-tetrode-constant-at-1k-and-101325pa: Public constants
Constant, sackur-tetrode-constant-at-1k-and-101325pa: Public constants
Constant, sackur-tetrode-constant-at-1k-and-101325pa: Public constants
Constant, second-radiation-constant: Public constants
Constant, second-radiation-constant: Public constants
Constant, second-radiation-constant: Public constants
Constant, shielded-helion-gyromagnetic-ratio: Public constants
Constant, shielded-helion-gyromagnetic-ratio: Public constants
Constant, shielded-helion-gyromagnetic-ratio: Public constants
Constant, shielded-helion-gyromagnetic-ratio-in-mhz/t: Public constants
Constant, shielded-helion-gyromagnetic-ratio-over-2-pi: Public constants
Constant, shielded-helion-gyromagnetic-ratio-over-2-pi: Public constants
Constant, shielded-helion-magnetic-moment: Public constants
Constant, shielded-helion-magnetic-moment: Public constants
Constant, shielded-helion-magnetic-moment: Public constants
Constant, shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, shielded-helion-to-proton-magnetic-moment-ratio: Public constants
Constant, shielded-helion-to-proton-magnetic-moment-ratio: Public constants
Constant, shielded-helion-to-proton-magnetic-moment-ratio: Public constants
Constant, shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public constants
Constant, shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public constants
Constant, shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public constants
Constant, shielded-proton-gyromagnetic-ratio: Public constants
Constant, shielded-proton-gyromagnetic-ratio: Public constants
Constant, shielded-proton-gyromagnetic-ratio: Public constants
Constant, shielded-proton-gyromagnetic-ratio-in-mhz/t: Public constants
Constant, shielded-proton-gyromagnetic-ratio-over-2-pi: Public constants
Constant, shielded-proton-gyromagnetic-ratio-over-2-pi: Public constants
Constant, shielded-proton-magnetic-moment: Public constants
Constant, shielded-proton-magnetic-moment: Public constants
Constant, shielded-proton-magnetic-moment: Public constants
Constant, shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, shielding-difference-of-d-and-p-in-hd: Public constants
Constant, shielding-difference-of-t-and-p-in-ht: Public constants
Constant, speed-of-light-in-vacuum: Public constants
Constant, speed-of-light-in-vacuum: Public constants
Constant, speed-of-light-in-vacuum: Public constants
Constant, standard-acceleration-of-gravity: Public constants
Constant, standard-acceleration-of-gravity: Public constants
Constant, standard-acceleration-of-gravity: Public constants
Constant, standard-atmosphere: Public constants
Constant, standard-atmosphere: Public constants
Constant, standard-atmosphere: Public constants
Constant, standard-state-pressure: Public constants
Constant, standard-state-pressure: Public constants
Constant, standard-state-pressure: Public constants
Constant, stefan-boltzmann-constant: Public constants
Constant, stefan-boltzmann-constant: Public constants
Constant, stefan-boltzmann-constant: Public constants
Constant, tau-compton-wavelength: Public constants
Constant, tau-compton-wavelength: Public constants
Constant, tau-compton-wavelength: Public constants
Constant, tau-compton-wavelength-over-2-pi: Public constants
Constant, tau-compton-wavelength-over-2-pi: Public constants
Constant, tau-electron-mass-ratio: Public constants
Constant, tau-electron-mass-ratio: Public constants
Constant, tau-electron-mass-ratio: Public constants
Constant, tau-energy-equivalent: Public constants
Constant, tau-mass: Public constants
Constant, tau-mass: Public constants
Constant, tau-mass: Public constants
Constant, tau-mass-energy-equivalent: Public constants
Constant, tau-mass-energy-equivalent: Public constants
Constant, tau-mass-energy-equivalent: Public constants
Constant, tau-mass-energy-equivalent-in-mev: Public constants
Constant, tau-mass-energy-equivalent-in-mev: Public constants
Constant, tau-mass-in-u: Public constants
Constant, tau-mass-in-u: Public constants
Constant, tau-mass-in-u: Public constants
Constant, tau-molar-mass: Public constants
Constant, tau-molar-mass: Public constants
Constant, tau-molar-mass: Public constants
Constant, tau-muon-mass-ratio: Public constants
Constant, tau-muon-mass-ratio: Public constants
Constant, tau-muon-mass-ratio: Public constants
Constant, tau-neutron-mass-ratio: Public constants
Constant, tau-neutron-mass-ratio: Public constants
Constant, tau-neutron-mass-ratio: Public constants
Constant, tau-proton-mass-ratio: Public constants
Constant, tau-proton-mass-ratio: Public constants
Constant, tau-proton-mass-ratio: Public constants
Constant, thomson-cross-section: Public constants
Constant, thomson-cross-section: Public constants
Constant, thomson-cross-section: Public constants
Constant, triton-electron-mass-ratio: Public constants
Constant, triton-electron-mass-ratio: Public constants
Constant, triton-electron-mass-ratio: Public constants
Constant, triton-g-factor: Public constants
Constant, triton-g-factor: Public constants
Constant, triton-g-factor: Public constants
Constant, triton-magnetic-moment: Public constants
Constant, triton-magnetic-moment: Public constants
Constant, triton-magnetic-moment: Public constants
Constant, triton-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, triton-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, triton-magnetic-moment-to-bohr-magneton-ratio: Public constants
Constant, triton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, triton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, triton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
Constant, triton-mass: Public constants
Constant, triton-mass: Public constants
Constant, triton-mass: Public constants
Constant, triton-mass-energy-equivalent: Public constants
Constant, triton-mass-energy-equivalent: Public constants
Constant, triton-mass-energy-equivalent: Public constants
Constant, triton-mass-energy-equivalent-in-mev: Public constants
Constant, triton-mass-energy-equivalent-in-mev: Public constants
Constant, triton-mass-energy-equivalent-in-mev: Public constants
Constant, triton-mass-in-u: Public constants
Constant, triton-mass-in-u: Public constants
Constant, triton-mass-in-u: Public constants
Constant, triton-molar-mass: Public constants
Constant, triton-molar-mass: Public constants
Constant, triton-molar-mass: Public constants
Constant, triton-proton-mass-ratio: Public constants
Constant, triton-proton-mass-ratio: Public constants
Constant, triton-proton-mass-ratio: Public constants
Constant, triton-relative-atomic-mass: Public constants
Constant, triton-to-proton-magnetic-moment-ratio: Public constants
Constant, unified-atomic-mass-unit: Public constants
Constant, unified-atomic-mass-unit: Public constants
Constant, unified-atomic-mass-unit: Public constants
Constant, vacuum-electric-permittivity: Public constants
Constant, vacuum-magnetic-permeability: Public constants
Constant, von-klitzing-constant: Public constants
Constant, von-klitzing-constant: Public constants
Constant, von-klitzing-constant: Public constants
Constant, w-to-z-mass-ratio: Public constants
Constant, weak-mixing-angle: Public constants
Constant, weak-mixing-angle: Public constants
Constant, weak-mixing-angle: Public constants
Constant, wien-frequency-displacement-law-constant: Public constants
Constant, wien-frequency-displacement-law-constant: Public constants
Constant, wien-frequency-displacement-law-constant: Public constants
Constant, wien-wavelength-displacement-law-constant: Public constants
Constant, wien-wavelength-displacement-law-constant: Public constants
Constant, wien-wavelength-displacement-law-constant: Public constants
conventional-value-of-ampere-90: Public constants
conventional-value-of-coulomb-90: Public constants
conventional-value-of-farad-90: Public constants
conventional-value-of-henry-90: Public constants
conventional-value-of-josephson-constant: Public constants
conventional-value-of-josephson-constant: Public constants
conventional-value-of-josephson-constant: Public constants
conventional-value-of-ohm-90: Public constants
conventional-value-of-volt-90: Public constants
conventional-value-of-von-klitzing-constant: Public constants
conventional-value-of-von-klitzing-constant: Public constants
conventional-value-of-von-klitzing-constant: Public constants
conventional-value-of-watt-90: Public constants
copper-x-unit: Public constants
cu-x-unit: Public constants
cu-x-unit: Public constants
cu-x-unit: Public symbol macros

D
deuteron-electron-magnetic-moment-ratio: Public constants
deuteron-electron-magnetic-moment-ratio: Public constants
deuteron-electron-magnetic-moment-ratio: Public constants
deuteron-electron-mass-ratio: Public constants
deuteron-electron-mass-ratio: Public constants
deuteron-electron-mass-ratio: Public constants
deuteron-g-factor: Public constants
deuteron-g-factor: Public constants
deuteron-g-factor: Public constants
deuteron-magnetic-moment: Public constants
deuteron-magnetic-moment: Public constants
deuteron-magnetic-moment: Public constants
deuteron-magnetic-moment-to-bohr-magneton-ratio: Public constants
deuteron-magnetic-moment-to-bohr-magneton-ratio: Public constants
deuteron-magnetic-moment-to-bohr-magneton-ratio: Public constants
deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
deuteron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
deuteron-mass: Public constants
deuteron-mass: Public constants
deuteron-mass: Public constants
deuteron-mass-energy-equivalent: Public constants
deuteron-mass-energy-equivalent: Public constants
deuteron-mass-energy-equivalent: Public constants
deuteron-mass-energy-equivalent-in-mev: Public constants
deuteron-mass-energy-equivalent-in-mev: Public constants
deuteron-mass-energy-equivalent-in-mev: Public constants
deuteron-mass-in-u: Public constants
deuteron-mass-in-u: Public constants
deuteron-mass-in-u: Public constants
deuteron-molar-mass: Public constants
deuteron-molar-mass: Public constants
deuteron-molar-mass: Public constants
deuteron-neutron-magnetic-moment-ratio: Public constants
deuteron-neutron-magnetic-moment-ratio: Public constants
deuteron-neutron-magnetic-moment-ratio: Public constants
deuteron-proton-magnetic-moment-ratio: Public constants
deuteron-proton-magnetic-moment-ratio: Public constants
deuteron-proton-magnetic-moment-ratio: Public constants
deuteron-proton-mass-ratio: Public constants
deuteron-proton-mass-ratio: Public constants
deuteron-proton-mass-ratio: Public constants
deuteron-relative-atomic-mass: Public constants
deuteron-rms-charge-radius: Public constants
deuteron-rms-charge-radius: Public constants
deuteron-rms-charge-radius: Public constants

E
electric-constant: Public constants
electric-constant: Public constants
electric-constant: Public symbol macros
electron-charge-to-mass-quotient: Public constants
electron-charge-to-mass-quotient: Public constants
electron-charge-to-mass-quotient: Public constants
electron-deuteron-magnetic-moment-ratio: Public constants
electron-deuteron-magnetic-moment-ratio: Public constants
electron-deuteron-magnetic-moment-ratio: Public constants
electron-deuteron-mass-ratio: Public constants
electron-deuteron-mass-ratio: Public constants
electron-deuteron-mass-ratio: Public constants
electron-g-factor: Public constants
electron-g-factor: Public constants
electron-g-factor: Public constants
electron-gyromagnetic-ratio: Public constants
electron-gyromagnetic-ratio: Public constants
electron-gyromagnetic-ratio: Public constants
electron-gyromagnetic-ratio-in-mhz/t: Public constants
electron-gyromagnetic-ratio-over-2-pi: Public constants
electron-gyromagnetic-ratio-over-2-pi: Public constants
electron-helion-mass-ratio: Public constants
electron-helion-mass-ratio: Public constants
electron-helion-mass-ratio: Public constants
electron-magnetic-moment: Public constants
electron-magnetic-moment: Public constants
electron-magnetic-moment: Public constants
electron-magnetic-moment-anomaly: Public constants
electron-magnetic-moment-anomaly: Public constants
electron-magnetic-moment-anomaly: Public constants
electron-magnetic-moment-to-bohr-magneton-ratio: Public constants
electron-magnetic-moment-to-bohr-magneton-ratio: Public constants
electron-magnetic-moment-to-bohr-magneton-ratio: Public constants
electron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
electron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
electron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
electron-mass: Public constants
electron-mass: Public constants
electron-mass: Public constants
electron-mass-energy-equivalent: Public constants
electron-mass-energy-equivalent: Public constants
electron-mass-energy-equivalent: Public constants
electron-mass-energy-equivalent-in-mev: Public constants
electron-mass-energy-equivalent-in-mev: Public constants
electron-mass-energy-equivalent-in-mev: Public constants
electron-mass-in-u: Public constants
electron-mass-in-u: Public constants
electron-mass-in-u: Public constants
electron-molar-mass: Public constants
electron-molar-mass: Public constants
electron-molar-mass: Public constants
electron-muon-magnetic-moment-ratio: Public constants
electron-muon-magnetic-moment-ratio: Public constants
electron-muon-magnetic-moment-ratio: Public constants
electron-muon-mass-ratio: Public constants
electron-muon-mass-ratio: Public constants
electron-muon-mass-ratio: Public constants
electron-neutron-magnetic-moment-ratio: Public constants
electron-neutron-magnetic-moment-ratio: Public constants
electron-neutron-magnetic-moment-ratio: Public constants
electron-neutron-mass-ratio: Public constants
electron-neutron-mass-ratio: Public constants
electron-neutron-mass-ratio: Public constants
electron-proton-magnetic-moment-ratio: Public constants
electron-proton-magnetic-moment-ratio: Public constants
electron-proton-magnetic-moment-ratio: Public constants
electron-proton-mass-ratio: Public constants
electron-proton-mass-ratio: Public constants
electron-proton-mass-ratio: Public constants
electron-relative-atomic-mass: Public constants
electron-tau-mass-ratio: Public constants
electron-tau-mass-ratio: Public constants
electron-tau-mass-ratio: Public constants
electron-to-alpha-particle-mass-ratio: Public constants
electron-to-alpha-particle-mass-ratio: Public constants
electron-to-alpha-particle-mass-ratio: Public constants
electron-to-shielded-helion-magnetic-moment-ratio: Public constants
electron-to-shielded-helion-magnetic-moment-ratio: Public constants
electron-to-shielded-helion-magnetic-moment-ratio: Public constants
electron-to-shielded-proton-magnetic-moment-ratio: Public constants
electron-to-shielded-proton-magnetic-moment-ratio: Public constants
electron-to-shielded-proton-magnetic-moment-ratio: Public constants
electron-triton-mass-ratio: Public constants
electron-triton-mass-ratio: Public constants
electron-triton-mass-ratio: Public constants
electron-volt: Public constants
electron-volt: Public constants
electron-volt: Public constants
electron-volt-atomic-mass-unit-relationship: Public constants
electron-volt-atomic-mass-unit-relationship: Public constants
electron-volt-atomic-mass-unit-relationship: Public constants
electron-volt-hartree-relationship: Public constants
electron-volt-hartree-relationship: Public constants
electron-volt-hartree-relationship: Public constants
electron-volt-hertz-relationship: Public constants
electron-volt-hertz-relationship: Public constants
electron-volt-hertz-relationship: Public constants
electron-volt-inverse-meter-relationship: Public constants
electron-volt-inverse-meter-relationship: Public constants
electron-volt-inverse-meter-relationship: Public constants
electron-volt-joule-relationship: Public constants
electron-volt-joule-relationship: Public constants
electron-volt-joule-relationship: Public constants
electron-volt-kelvin-relationship: Public constants
electron-volt-kelvin-relationship: Public constants
electron-volt-kelvin-relationship: Public constants
electron-volt-kilogram-relationship: Public constants
electron-volt-kilogram-relationship: Public constants
electron-volt-kilogram-relationship: Public constants
elementary-charge: Public constants
elementary-charge: Public constants
elementary-charge: Public constants
elementary-charge-over-h: Public constants
elementary-charge-over-h: Public constants
elementary-charge-over-h-bar: Public constants

F
faraday-constant: Public constants
faraday-constant: Public constants
faraday-constant: Public constants
faraday-constant-for-conventional-electric-current: Public constants
faraday-constant-for-conventional-electric-current: Public constants
fermi-coupling-constant: Public constants
fermi-coupling-constant: Public constants
fermi-coupling-constant: Public constants
fine-structure-constant: Public constants
fine-structure-constant: Public constants
fine-structure-constant: Public constants
first-radiation-constant: Public constants
first-radiation-constant: Public constants
first-radiation-constant: Public constants
first-radiation-constant-for-spectral-radiance: Public constants
first-radiation-constant-for-spectral-radiance: Public constants
first-radiation-constant-for-spectral-radiance: Public constants

H
hartree-atomic-mass-unit-relationship: Public constants
hartree-atomic-mass-unit-relationship: Public constants
hartree-atomic-mass-unit-relationship: Public constants
hartree-electron-volt-relationship: Public constants
hartree-electron-volt-relationship: Public constants
hartree-electron-volt-relationship: Public constants
hartree-energy: Public constants
hartree-energy: Public constants
hartree-energy: Public constants
hartree-energy-in-ev: Public constants
hartree-energy-in-ev: Public constants
hartree-energy-in-ev: Public constants
hartree-hertz-relationship: Public constants
hartree-hertz-relationship: Public constants
hartree-hertz-relationship: Public constants
hartree-inverse-meter-relationship: Public constants
hartree-inverse-meter-relationship: Public constants
hartree-inverse-meter-relationship: Public constants
hartree-joule-relationship: Public constants
hartree-joule-relationship: Public constants
hartree-joule-relationship: Public constants
hartree-kelvin-relationship: Public constants
hartree-kelvin-relationship: Public constants
hartree-kelvin-relationship: Public constants
hartree-kilogram-relationship: Public constants
hartree-kilogram-relationship: Public constants
hartree-kilogram-relationship: Public constants
helion-electron-mass-ratio: Public constants
helion-electron-mass-ratio: Public constants
helion-electron-mass-ratio: Public constants
helion-g-factor: Public constants
helion-g-factor: Public constants
helion-g-factor: Public constants
helion-magnetic-moment: Public constants
helion-magnetic-moment: Public constants
helion-magnetic-moment: Public constants
helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
helion-mass: Public constants
helion-mass: Public constants
helion-mass: Public constants
helion-mass-energy-equivalent: Public constants
helion-mass-energy-equivalent: Public constants
helion-mass-energy-equivalent: Public constants
helion-mass-energy-equivalent-in-mev: Public constants
helion-mass-energy-equivalent-in-mev: Public constants
helion-mass-energy-equivalent-in-mev: Public constants
helion-mass-in-u: Public constants
helion-mass-in-u: Public constants
helion-mass-in-u: Public constants
helion-molar-mass: Public constants
helion-molar-mass: Public constants
helion-molar-mass: Public constants
helion-proton-mass-ratio: Public constants
helion-proton-mass-ratio: Public constants
helion-proton-mass-ratio: Public constants
helion-relative-atomic-mass: Public constants
helion-shielding-shift: Public constants
hertz-atomic-mass-unit-relationship: Public constants
hertz-atomic-mass-unit-relationship: Public constants
hertz-atomic-mass-unit-relationship: Public constants
hertz-electron-volt-relationship: Public constants
hertz-electron-volt-relationship: Public constants
hertz-electron-volt-relationship: Public constants
hertz-hartree-relationship: Public constants
hertz-hartree-relationship: Public constants
hertz-hartree-relationship: Public constants
hertz-inverse-meter-relationship: Public constants
hertz-inverse-meter-relationship: Public constants
hertz-inverse-meter-relationship: Public constants
hertz-joule-relationship: Public constants
hertz-joule-relationship: Public constants
hertz-joule-relationship: Public constants
hertz-kelvin-relationship: Public constants
hertz-kelvin-relationship: Public constants
hertz-kelvin-relationship: Public constants
hertz-kilogram-relationship: Public constants
hertz-kilogram-relationship: Public constants
hertz-kilogram-relationship: Public constants
hyperfine-transition-frequency-of-caesium-133: Public constants

I
inverse-fine-structure-constant: Public constants
inverse-fine-structure-constant: Public constants
inverse-fine-structure-constant: Public constants
inverse-meter-atomic-mass-unit-relationship: Public constants
inverse-meter-atomic-mass-unit-relationship: Public constants
inverse-meter-atomic-mass-unit-relationship: Public constants
inverse-meter-electron-volt-relationship: Public constants
inverse-meter-electron-volt-relationship: Public constants
inverse-meter-electron-volt-relationship: Public constants
inverse-meter-hartree-relationship: Public constants
inverse-meter-hartree-relationship: Public constants
inverse-meter-hartree-relationship: Public constants
inverse-meter-hertz-relationship: Public constants
inverse-meter-hertz-relationship: Public constants
inverse-meter-hertz-relationship: Public constants
inverse-meter-joule-relationship: Public constants
inverse-meter-joule-relationship: Public constants
inverse-meter-joule-relationship: Public constants
inverse-meter-kelvin-relationship: Public constants
inverse-meter-kelvin-relationship: Public constants
inverse-meter-kelvin-relationship: Public constants
inverse-meter-kilogram-relationship: Public constants
inverse-meter-kilogram-relationship: Public constants
inverse-meter-kilogram-relationship: Public constants
inverse-of-conductance-quantum: Public constants
inverse-of-conductance-quantum: Public constants
inverse-of-conductance-quantum: Public constants

J
josephson-constant: Public constants
josephson-constant: Public constants
josephson-constant: Public constants
joule-atomic-mass-unit-relationship: Public constants
joule-atomic-mass-unit-relationship: Public constants
joule-atomic-mass-unit-relationship: Public constants
joule-electron-volt-relationship: Public constants
joule-electron-volt-relationship: Public constants
joule-electron-volt-relationship: Public constants
joule-hartree-relationship: Public constants
joule-hartree-relationship: Public constants
joule-hartree-relationship: Public constants
joule-hertz-relationship: Public constants
joule-hertz-relationship: Public constants
joule-hertz-relationship: Public constants
joule-inverse-meter-relationship: Public constants
joule-inverse-meter-relationship: Public constants
joule-inverse-meter-relationship: Public constants
joule-kelvin-relationship: Public constants
joule-kelvin-relationship: Public constants
joule-kelvin-relationship: Public constants
joule-kilogram-relationship: Public constants
joule-kilogram-relationship: Public constants
joule-kilogram-relationship: Public constants

K
kelvin-atomic-mass-unit-relationship: Public constants
kelvin-atomic-mass-unit-relationship: Public constants
kelvin-atomic-mass-unit-relationship: Public constants
kelvin-electron-volt-relationship: Public constants
kelvin-electron-volt-relationship: Public constants
kelvin-electron-volt-relationship: Public constants
kelvin-hartree-relationship: Public constants
kelvin-hartree-relationship: Public constants
kelvin-hartree-relationship: Public constants
kelvin-hertz-relationship: Public constants
kelvin-hertz-relationship: Public constants
kelvin-hertz-relationship: Public constants
kelvin-inverse-meter-relationship: Public constants
kelvin-inverse-meter-relationship: Public constants
kelvin-inverse-meter-relationship: Public constants
kelvin-joule-relationship: Public constants
kelvin-joule-relationship: Public constants
kelvin-joule-relationship: Public constants
kelvin-kilogram-relationship: Public constants
kelvin-kilogram-relationship: Public constants
kelvin-kilogram-relationship: Public constants
kilogram-atomic-mass-unit-relationship: Public constants
kilogram-atomic-mass-unit-relationship: Public constants
kilogram-atomic-mass-unit-relationship: Public constants
kilogram-electron-volt-relationship: Public constants
kilogram-electron-volt-relationship: Public constants
kilogram-electron-volt-relationship: Public constants
kilogram-hartree-relationship: Public constants
kilogram-hartree-relationship: Public constants
kilogram-hartree-relationship: Public constants
kilogram-hertz-relationship: Public constants
kilogram-hertz-relationship: Public constants
kilogram-hertz-relationship: Public constants
kilogram-inverse-meter-relationship: Public constants
kilogram-inverse-meter-relationship: Public constants
kilogram-inverse-meter-relationship: Public constants
kilogram-joule-relationship: Public constants
kilogram-joule-relationship: Public constants
kilogram-joule-relationship: Public constants
kilogram-kelvin-relationship: Public constants
kilogram-kelvin-relationship: Public constants
kilogram-kelvin-relationship: Public constants

L
lattice-parameter-of-silicon: Public constants
lattice-parameter-of-silicon: Public constants
lattice-parameter-of-silicon: Public constants
lattice-spacing-of-ideal-silicon-at-220: Public constants
loschmidt-constant-at-273.15k-and-100000pa: Public constants
loschmidt-constant-at-273.15k-and-100000pa: Public constants
loschmidt-constant-at-273.15k-and-100000pa: Public constants
loschmidt-constant-at-273.15k-and-101325pa: Public constants
loschmidt-constant-at-273.15k-and-101325pa: Public constants
loschmidt-constant-at-273.15k-and-101325pa: Public constants
luminous-efficacy: Public constants

M
magnetic-constant: Public constants
magnetic-constant: Public constants
magnetic-constant: Public symbol macros
magnetic-flux-quantum: Public constants
magnetic-flux-quantum: Public constants
magnetic-flux-quantum: Public constants
mo-x-unit: Public constants
mo-x-unit: Public constants
mo-x-unit: Public symbol macros
molar-gas-constant: Public constants
molar-gas-constant: Public constants
molar-gas-constant: Public constants
molar-mass-constant: Public constants
molar-mass-constant: Public constants
molar-mass-constant: Public constants
molar-mass-of-carbon-12: Public constants
molar-mass-of-carbon-12: Public constants
molar-mass-of-carbon-12: Public constants
molar-planck-constant: Public constants
molar-planck-constant: Public constants
molar-planck-constant: Public constants
molar-planck-constant-times-c: Public constants
molar-planck-constant-times-c: Public constants
molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public constants
molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public constants
molar-volume-of-ideal-gas-at-273.15k-and-100000pa: Public constants
molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public constants
molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public constants
molar-volume-of-ideal-gas-at-273.15k-and-101325pa: Public constants
molar-volume-of-silicon: Public constants
molar-volume-of-silicon: Public constants
molar-volume-of-silicon: Public constants
molybdenum-x-unit: Public constants
muon-compton-wavelength: Public constants
muon-compton-wavelength: Public constants
muon-compton-wavelength: Public constants
muon-compton-wavelength-over-2-pi: Public constants
muon-compton-wavelength-over-2-pi: Public constants
muon-electron-mass-ratio: Public constants
muon-electron-mass-ratio: Public constants
muon-electron-mass-ratio: Public constants
muon-g-factor: Public constants
muon-g-factor: Public constants
muon-g-factor: Public constants
muon-magnetic-moment: Public constants
muon-magnetic-moment: Public constants
muon-magnetic-moment: Public constants
muon-magnetic-moment-anomaly: Public constants
muon-magnetic-moment-anomaly: Public constants
muon-magnetic-moment-anomaly: Public constants
muon-magnetic-moment-to-bohr-magneton-ratio: Public constants
muon-magnetic-moment-to-bohr-magneton-ratio: Public constants
muon-magnetic-moment-to-bohr-magneton-ratio: Public constants
muon-magnetic-moment-to-nuclear-magneton-ratio: Public constants
muon-magnetic-moment-to-nuclear-magneton-ratio: Public constants
muon-magnetic-moment-to-nuclear-magneton-ratio: Public constants
muon-mass: Public constants
muon-mass: Public constants
muon-mass: Public constants
muon-mass-energy-equivalent: Public constants
muon-mass-energy-equivalent: Public constants
muon-mass-energy-equivalent: Public constants
muon-mass-energy-equivalent-in-mev: Public constants
muon-mass-energy-equivalent-in-mev: Public constants
muon-mass-energy-equivalent-in-mev: Public constants
muon-mass-in-u: Public constants
muon-mass-in-u: Public constants
muon-mass-in-u: Public constants
muon-molar-mass: Public constants
muon-molar-mass: Public constants
muon-molar-mass: Public constants
muon-neutron-mass-ratio: Public constants
muon-neutron-mass-ratio: Public constants
muon-neutron-mass-ratio: Public constants
muon-proton-magnetic-moment-ratio: Public constants
muon-proton-magnetic-moment-ratio: Public constants
muon-proton-magnetic-moment-ratio: Public constants
muon-proton-mass-ratio: Public constants
muon-proton-mass-ratio: Public constants
muon-proton-mass-ratio: Public constants
muon-tau-mass-ratio: Public constants
muon-tau-mass-ratio: Public constants
muon-tau-mass-ratio: Public constants

N
natural-unit-of-action: Public constants
natural-unit-of-action: Public constants
natural-unit-of-action: Public constants
natural-unit-of-action-in-ev-s: Public constants
natural-unit-of-action-in-ev-s: Public constants
natural-unit-of-action-in-ev-s: Public constants
natural-unit-of-energy: Public constants
natural-unit-of-energy: Public constants
natural-unit-of-energy: Public constants
natural-unit-of-energy-in-mev: Public constants
natural-unit-of-energy-in-mev: Public constants
natural-unit-of-energy-in-mev: Public constants
natural-unit-of-length: Public constants
natural-unit-of-length: Public constants
natural-unit-of-length: Public constants
natural-unit-of-mass: Public constants
natural-unit-of-mass: Public constants
natural-unit-of-mass: Public constants
natural-unit-of-momentum: Public constants
natural-unit-of-momentum: Public constants
natural-unit-of-momentum: Public constants
natural-unit-of-momentum-in-mev/c: Public constants
natural-unit-of-momentum-in-mev/c: Public constants
natural-unit-of-momentum-in-mev/c: Public constants
natural-unit-of-time: Public constants
natural-unit-of-time: Public constants
natural-unit-of-time: Public constants
natural-unit-of-velocity: Public constants
natural-unit-of-velocity: Public constants
natural-unit-of-velocity: Public constants
neutron-compton-wavelength: Public constants
neutron-compton-wavelength: Public constants
neutron-compton-wavelength: Public constants
neutron-compton-wavelength-over-2-pi: Public constants
neutron-compton-wavelength-over-2-pi: Public constants
neutron-electron-magnetic-moment-ratio: Public constants
neutron-electron-magnetic-moment-ratio: Public constants
neutron-electron-magnetic-moment-ratio: Public constants
neutron-electron-mass-ratio: Public constants
neutron-electron-mass-ratio: Public constants
neutron-electron-mass-ratio: Public constants
neutron-g-factor: Public constants
neutron-g-factor: Public constants
neutron-g-factor: Public constants
neutron-gyromagnetic-ratio: Public constants
neutron-gyromagnetic-ratio: Public constants
neutron-gyromagnetic-ratio: Public constants
neutron-gyromagnetic-ratio-in-mhz/t: Public constants
neutron-gyromagnetic-ratio-over-2-pi: Public constants
neutron-gyromagnetic-ratio-over-2-pi: Public constants
neutron-magnetic-moment: Public constants
neutron-magnetic-moment: Public constants
neutron-magnetic-moment: Public constants
neutron-magnetic-moment-to-bohr-magneton-ratio: Public constants
neutron-magnetic-moment-to-bohr-magneton-ratio: Public constants
neutron-magnetic-moment-to-bohr-magneton-ratio: Public constants
neutron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
neutron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
neutron-magnetic-moment-to-nuclear-magneton-ratio: Public constants
neutron-mass: Public constants
neutron-mass: Public constants
neutron-mass: Public constants
neutron-mass-energy-equivalent: Public constants
neutron-mass-energy-equivalent: Public constants
neutron-mass-energy-equivalent: Public constants
neutron-mass-energy-equivalent-in-mev: Public constants
neutron-mass-energy-equivalent-in-mev: Public constants
neutron-mass-energy-equivalent-in-mev: Public constants
neutron-mass-in-u: Public constants
neutron-mass-in-u: Public constants
neutron-mass-in-u: Public constants
neutron-molar-mass: Public constants
neutron-molar-mass: Public constants
neutron-molar-mass: Public constants
neutron-muon-mass-ratio: Public constants
neutron-muon-mass-ratio: Public constants
neutron-muon-mass-ratio: Public constants
neutron-proton-magnetic-moment-ratio: Public constants
neutron-proton-magnetic-moment-ratio: Public constants
neutron-proton-magnetic-moment-ratio: Public constants
neutron-proton-mass-difference: Public constants
neutron-proton-mass-difference: Public constants
neutron-proton-mass-difference: Public constants
neutron-proton-mass-difference-energy-equivalent: Public constants
neutron-proton-mass-difference-energy-equivalent: Public constants
neutron-proton-mass-difference-energy-equivalent: Public constants
neutron-proton-mass-difference-energy-equivalent-in-mev: Public constants
neutron-proton-mass-difference-energy-equivalent-in-mev: Public constants
neutron-proton-mass-difference-energy-equivalent-in-mev: Public constants
neutron-proton-mass-difference-in-u: Public constants
neutron-proton-mass-difference-in-u: Public constants
neutron-proton-mass-difference-in-u: Public constants
neutron-proton-mass-ratio: Public constants
neutron-proton-mass-ratio: Public constants
neutron-proton-mass-ratio: Public constants
neutron-relative-atomic-mass: Public constants
neutron-tau-mass-ratio: Public constants
neutron-tau-mass-ratio: Public constants
neutron-tau-mass-ratio: Public constants
neutron-to-shielded-proton-magnetic-moment-ratio: Public constants
neutron-to-shielded-proton-magnetic-moment-ratio: Public constants
neutron-to-shielded-proton-magnetic-moment-ratio: Public constants
newtonian-constant-of-gravitation: Public constants
newtonian-constant-of-gravitation: Public constants
newtonian-constant-of-gravitation: Public constants
newtonian-constant-of-gravitation-over-h-bar-c: Public constants
newtonian-constant-of-gravitation-over-h-bar-c: Public constants
newtonian-constant-of-gravitation-over-h-bar-c: Public constants
nuclear-magneton: Public constants
nuclear-magneton: Public constants
nuclear-magneton: Public constants
nuclear-magneton-in-ev/t: Public constants
nuclear-magneton-in-ev/t: Public constants
nuclear-magneton-in-ev/t: Public constants
nuclear-magneton-in-inverse-meter-per-tesla: Public constants
nuclear-magneton-in-inverse-meters-per-tesla: Public constants
nuclear-magneton-in-inverse-meters-per-tesla: Public constants
nuclear-magneton-in-k/t: Public constants
nuclear-magneton-in-k/t: Public constants
nuclear-magneton-in-k/t: Public constants
nuclear-magneton-in-mhz/t: Public constants
nuclear-magneton-in-mhz/t: Public constants
nuclear-magneton-in-mhz/t: Public constants

P
planck-constant: Public constants
planck-constant: Public constants
planck-constant: Public constants
planck-constant-in-ev-s: Public constants
planck-constant-in-ev-s: Public constants
planck-constant-in-ev/hz: Public constants
planck-constant-over-2-pi: Public constants
planck-constant-over-2-pi: Public constants
planck-constant-over-2-pi-in-ev-s: Public constants
planck-constant-over-2-pi-in-ev-s: Public constants
planck-constant-over-2-pi-times-c-in-mev-fm: Public constants
planck-constant-over-2-pi-times-c-in-mev-fm: Public constants
planck-length: Public constants
planck-length: Public constants
planck-length: Public constants
planck-mass: Public constants
planck-mass: Public constants
planck-mass: Public constants
planck-mass-energy-equivalent-in-gev: Public constants
planck-mass-energy-equivalent-in-gev: Public constants
planck-mass-energy-equivalent-in-gev: Public constants
planck-temperature: Public constants
planck-temperature: Public constants
planck-temperature: Public constants
planck-time: Public constants
planck-time: Public constants
planck-time: Public constants
proton-charge-to-mass-quotient: Public constants
proton-charge-to-mass-quotient: Public constants
proton-charge-to-mass-quotient: Public constants
proton-compton-wavelength: Public constants
proton-compton-wavelength: Public constants
proton-compton-wavelength: Public constants
proton-compton-wavelength-over-2-pi: Public constants
proton-compton-wavelength-over-2-pi: Public constants
proton-electron-mass-ratio: Public constants
proton-electron-mass-ratio: Public constants
proton-electron-mass-ratio: Public constants
proton-g-factor: Public constants
proton-g-factor: Public constants
proton-g-factor: Public constants
proton-gyromagnetic-ratio: Public constants
proton-gyromagnetic-ratio: Public constants
proton-gyromagnetic-ratio: Public constants
proton-gyromagnetic-ratio-in-mhz/t: Public constants
proton-gyromagnetic-ratio-over-2-pi: Public constants
proton-gyromagnetic-ratio-over-2-pi: Public constants
proton-magnetic-moment: Public constants
proton-magnetic-moment: Public constants
proton-magnetic-moment: Public constants
proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
proton-magnetic-shielding-correction: Public constants
proton-magnetic-shielding-correction: Public constants
proton-magnetic-shielding-correction: Public constants
proton-mass: Public constants
proton-mass: Public constants
proton-mass: Public constants
proton-mass-energy-equivalent: Public constants
proton-mass-energy-equivalent: Public constants
proton-mass-energy-equivalent: Public constants
proton-mass-energy-equivalent-in-mev: Public constants
proton-mass-energy-equivalent-in-mev: Public constants
proton-mass-energy-equivalent-in-mev: Public constants
proton-mass-in-u: Public constants
proton-mass-in-u: Public constants
proton-mass-in-u: Public constants
proton-molar-mass: Public constants
proton-molar-mass: Public constants
proton-molar-mass: Public constants
proton-muon-mass-ratio: Public constants
proton-muon-mass-ratio: Public constants
proton-muon-mass-ratio: Public constants
proton-neutron-magnetic-moment-ratio: Public constants
proton-neutron-magnetic-moment-ratio: Public constants
proton-neutron-magnetic-moment-ratio: Public constants
proton-neutron-mass-ratio: Public constants
proton-neutron-mass-ratio: Public constants
proton-neutron-mass-ratio: Public constants
proton-relative-atomic-mass: Public constants
proton-rms-charge-radius: Public constants
proton-rms-charge-radius: Public constants
proton-rms-charge-radius: Public constants
proton-tau-mass-ratio: Public constants
proton-tau-mass-ratio: Public constants
proton-tau-mass-ratio: Public constants

Q
quantum-of-circulation: Public constants
quantum-of-circulation: Public constants
quantum-of-circulation: Public constants
quantum-of-circulation-times-2: Public constants
quantum-of-circulation-times-2: Public constants
quantum-of-circulation-times-2: Public constants

R
reduced-compton-wavelength: Public constants
reduced-muon-compton-wavelength: Public constants
reduced-neutron-compton-wavelength: Public constants
reduced-planck-constant: Public constants
reduced-planck-constant-in-ev-s: Public constants
reduced-planck-constant-times-c-in-mev-fm: Public constants
reduced-proton-compton-wavelength: Public constants
reduced-tau-compton-wavelength: Public constants
rydberg-constant: Public constants
rydberg-constant: Public constants
rydberg-constant: Public constants
rydberg-constant-times-c-in-hz: Public constants
rydberg-constant-times-c-in-hz: Public constants
rydberg-constant-times-c-in-hz: Public constants
rydberg-constant-times-hc-in-ev: Public constants
rydberg-constant-times-hc-in-ev: Public constants
rydberg-constant-times-hc-in-ev: Public constants
rydberg-constant-times-hc-in-j: Public constants
rydberg-constant-times-hc-in-j: Public constants
rydberg-constant-times-hc-in-j: Public constants

S
sackur-tetrode-constant-at-1k-and-100000pa: Public constants
sackur-tetrode-constant-at-1k-and-100000pa: Public constants
sackur-tetrode-constant-at-1k-and-100000pa: Public constants
sackur-tetrode-constant-at-1k-and-101325pa: Public constants
sackur-tetrode-constant-at-1k-and-101325pa: Public constants
sackur-tetrode-constant-at-1k-and-101325pa: Public constants
second-radiation-constant: Public constants
second-radiation-constant: Public constants
second-radiation-constant: Public constants
shielded-helion-gyromagnetic-ratio: Public constants
shielded-helion-gyromagnetic-ratio: Public constants
shielded-helion-gyromagnetic-ratio: Public constants
shielded-helion-gyromagnetic-ratio-in-mhz/t: Public constants
shielded-helion-gyromagnetic-ratio-over-2-pi: Public constants
shielded-helion-gyromagnetic-ratio-over-2-pi: Public constants
shielded-helion-magnetic-moment: Public constants
shielded-helion-magnetic-moment: Public constants
shielded-helion-magnetic-moment: Public constants
shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
shielded-helion-magnetic-moment-to-bohr-magneton-ratio: Public constants
shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
shielded-helion-magnetic-moment-to-nuclear-magneton-ratio: Public constants
shielded-helion-to-proton-magnetic-moment-ratio: Public constants
shielded-helion-to-proton-magnetic-moment-ratio: Public constants
shielded-helion-to-proton-magnetic-moment-ratio: Public constants
shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public constants
shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public constants
shielded-helion-to-shielded-proton-magnetic-moment-ratio: Public constants
shielded-proton-gyromagnetic-ratio: Public constants
shielded-proton-gyromagnetic-ratio: Public constants
shielded-proton-gyromagnetic-ratio: Public constants
shielded-proton-gyromagnetic-ratio-in-mhz/t: Public constants
shielded-proton-gyromagnetic-ratio-over-2-pi: Public constants
shielded-proton-gyromagnetic-ratio-over-2-pi: Public constants
shielded-proton-magnetic-moment: Public constants
shielded-proton-magnetic-moment: Public constants
shielded-proton-magnetic-moment: Public constants
shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
shielded-proton-magnetic-moment-to-bohr-magneton-ratio: Public constants
shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
shielded-proton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
shielding-difference-of-d-and-p-in-hd: Public constants
shielding-difference-of-t-and-p-in-ht: Public constants
Special Variable, *string-value*: Public special variables
speed-of-light-in-vacuum: Public constants
speed-of-light-in-vacuum: Public constants
speed-of-light-in-vacuum: Public constants
standard-acceleration-of-gravity: Public constants
standard-acceleration-of-gravity: Public constants
standard-acceleration-of-gravity: Public constants
standard-atmosphere: Public constants
standard-atmosphere: Public constants
standard-atmosphere: Public constants
standard-state-pressure: Public constants
standard-state-pressure: Public constants
standard-state-pressure: Public constants
stefan-boltzmann-constant: Public constants
stefan-boltzmann-constant: Public constants
stefan-boltzmann-constant: Public constants
Symbol Macro, 220-lattice-spacing-of-silicon: Public symbol macros
Symbol Macro, bohr-magneton-in-inverse-meters-per-tesla: Public symbol macros
Symbol Macro, boltzmann-constant-in-inverse-meters-per-kelvin: Public symbol macros
Symbol Macro, cu-x-unit: Public symbol macros
Symbol Macro, electric-constant: Public symbol macros
Symbol Macro, magnetic-constant: Public symbol macros
Symbol Macro, mo-x-unit: Public symbol macros

T
tau-compton-wavelength: Public constants
tau-compton-wavelength: Public constants
tau-compton-wavelength: Public constants
tau-compton-wavelength-over-2-pi: Public constants
tau-compton-wavelength-over-2-pi: Public constants
tau-electron-mass-ratio: Public constants
tau-electron-mass-ratio: Public constants
tau-electron-mass-ratio: Public constants
tau-energy-equivalent: Public constants
tau-mass: Public constants
tau-mass: Public constants
tau-mass: Public constants
tau-mass-energy-equivalent: Public constants
tau-mass-energy-equivalent: Public constants
tau-mass-energy-equivalent: Public constants
tau-mass-energy-equivalent-in-mev: Public constants
tau-mass-energy-equivalent-in-mev: Public constants
tau-mass-in-u: Public constants
tau-mass-in-u: Public constants
tau-mass-in-u: Public constants
tau-molar-mass: Public constants
tau-molar-mass: Public constants
tau-molar-mass: Public constants
tau-muon-mass-ratio: Public constants
tau-muon-mass-ratio: Public constants
tau-muon-mass-ratio: Public constants
tau-neutron-mass-ratio: Public constants
tau-neutron-mass-ratio: Public constants
tau-neutron-mass-ratio: Public constants
tau-proton-mass-ratio: Public constants
tau-proton-mass-ratio: Public constants
tau-proton-mass-ratio: Public constants
thomson-cross-section: Public constants
thomson-cross-section: Public constants
thomson-cross-section: Public constants
triton-electron-mass-ratio: Public constants
triton-electron-mass-ratio: Public constants
triton-electron-mass-ratio: Public constants
triton-g-factor: Public constants
triton-g-factor: Public constants
triton-g-factor: Public constants
triton-magnetic-moment: Public constants
triton-magnetic-moment: Public constants
triton-magnetic-moment: Public constants
triton-magnetic-moment-to-bohr-magneton-ratio: Public constants
triton-magnetic-moment-to-bohr-magneton-ratio: Public constants
triton-magnetic-moment-to-bohr-magneton-ratio: Public constants
triton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
triton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
triton-magnetic-moment-to-nuclear-magneton-ratio: Public constants
triton-mass: Public constants
triton-mass: Public constants
triton-mass: Public constants
triton-mass-energy-equivalent: Public constants
triton-mass-energy-equivalent: Public constants
triton-mass-energy-equivalent: Public constants
triton-mass-energy-equivalent-in-mev: Public constants
triton-mass-energy-equivalent-in-mev: Public constants
triton-mass-energy-equivalent-in-mev: Public constants
triton-mass-in-u: Public constants
triton-mass-in-u: Public constants
triton-mass-in-u: Public constants
triton-molar-mass: Public constants
triton-molar-mass: Public constants
triton-molar-mass: Public constants
triton-proton-mass-ratio: Public constants
triton-proton-mass-ratio: Public constants
triton-proton-mass-ratio: Public constants
triton-relative-atomic-mass: Public constants
triton-to-proton-magnetic-moment-ratio: Public constants

U
unified-atomic-mass-unit: Public constants
unified-atomic-mass-unit: Public constants
unified-atomic-mass-unit: Public constants

V
vacuum-electric-permittivity: Public constants
vacuum-magnetic-permeability: Public constants
von-klitzing-constant: Public constants
von-klitzing-constant: Public constants
von-klitzing-constant: Public constants

W
w-to-z-mass-ratio: Public constants
weak-mixing-angle: Public constants
weak-mixing-angle: Public constants
weak-mixing-angle: Public constants
wien-frequency-displacement-law-constant: Public constants
wien-frequency-displacement-law-constant: Public constants
wien-frequency-displacement-law-constant: Public constants
wien-wavelength-displacement-law-constant: Public constants
wien-wavelength-displacement-law-constant: Public constants
wien-wavelength-displacement-law-constant: Public constants


A.4 Data types

Jump to:   C   F   P   S  
Index Entry  Section

C
codata-2010.lisp: The codata-recommended-values/codata-2010․lisp file
codata-2014.lisp: The codata-recommended-values/codata-2014․lisp file
codata-2018.lisp: The codata-recommended-values/codata-2018․lisp file
codata-common.lisp: The codata-recommended-values/codata-common․lisp file
codata-recommended-values: The codata-recommended-values system
codata-recommended-values: The codata-recommended-values package
codata-recommended-values-2010: The codata-recommended-values-2010 package
codata-recommended-values-2014: The codata-recommended-values-2014 package
codata-recommended-values-2018: The codata-recommended-values-2018 package
codata-recommended-values-common: The codata-recommended-values-common package
codata-recommended-values.asd: The codata-recommended-values/codata-recommended-values․asd file
codata.lisp: The codata-recommended-values/codata․lisp file

F
File, codata-2010.lisp: The codata-recommended-values/codata-2010․lisp file
File, codata-2014.lisp: The codata-recommended-values/codata-2014․lisp file
File, codata-2018.lisp: The codata-recommended-values/codata-2018․lisp file
File, codata-common.lisp: The codata-recommended-values/codata-common․lisp file
File, codata-recommended-values.asd: The codata-recommended-values/codata-recommended-values․asd file
File, codata.lisp: The codata-recommended-values/codata․lisp file

P
Package, codata-recommended-values: The codata-recommended-values package
Package, codata-recommended-values-2010: The codata-recommended-values-2010 package
Package, codata-recommended-values-2014: The codata-recommended-values-2014 package
Package, codata-recommended-values-2018: The codata-recommended-values-2018 package
Package, codata-recommended-values-common: The codata-recommended-values-common package

S
System, codata-recommended-values: The codata-recommended-values system