ipy_constants.py
669 lines
| 18.4 KiB
| text/x-python
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PythonLexer
fperez
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r642 | """ Module with physical constants for use with ipython, profile | ||
"physics". | ||||
Definition of Fundamental Physical Constants, CODATA Recommended Values | ||||
Source, Peter J. Mohr and Barry N. Taylor, | ||||
CODATA Recommended Values of the Fundamental | ||||
Physical Constants, 1998 | ||||
Website: physics.nist.gov/constants | ||||
""" | ||||
# License: BSD-like | ||||
# Copyright: Gael Varoquaux (gael.varoquaux@normalesup.org) | ||||
# inspired by maxima's physconst.mac by Cliff Yapp | ||||
#from math import * # math MUST be imported BEFORE PhysicalQInteractive | ||||
from IPython.Extensions.PhysicalQInteractive import PhysicalQuantityInteractive | ||||
# Math constants: | ||||
# Pi mathematical constants | ||||
pi = 3.141592653589793238462643383279502884197169399375105820974944592 | ||||
# Universal Constants | ||||
#------------------------------------------------------------------------- | ||||
c = PhysicalQuantityInteractive(299792458 , 'm/s') | ||||
c.__doc__ = """speed of light in vacuum""" | ||||
c.__doc__ = "speed of light in vacuum" | ||||
u_0 = PhysicalQuantityInteractive(4*pi*1E-7 , 'N/(A**2)') | ||||
u_0.__doc__ = """magnetic constant""" | ||||
mu_0 = PhysicalQuantityInteractive(4*pi*1E-7 , 'N/(A**2)') | ||||
epsilon_0 = PhysicalQuantityInteractive(8.854187817E-12 , 'F/m') | ||||
epsilon_0.__doc__ = """electric constant """ | ||||
Z_0 = PhysicalQuantityInteractive(376.730313461 , 'ohm') | ||||
Z_0.__doc__ = """characteristic impedance of vacuum """ | ||||
G = PhysicalQuantityInteractive(6.673E-11 , 'm**3/(kg*s**2)') | ||||
G.__doc__ = """Newtonian constant of gravitation """ | ||||
h = PhysicalQuantityInteractive(6.62606876E-34 , 'J*s') | ||||
h.__doc__ = """Planck constant """ | ||||
h_eV = PhysicalQuantityInteractive(4.13566727E-15 , 'eV*s') | ||||
h_eV.__doc__ = """Planck constant in eVs """ | ||||
h_bar = PhysicalQuantityInteractive(1.054571596E-34 , 'J*s') | ||||
h_bar.__doc__ = """Hbar""" | ||||
h_bar_eV = PhysicalQuantityInteractive(6.58211889E-16 , 'eV*s') | ||||
h_bar_eV.__doc__ = """Hbar in eV""" | ||||
P_m = PhysicalQuantityInteractive(2.1767E-8 , 'kg') | ||||
P_m.__doc__ = """Planck mass""" | ||||
P_l = PhysicalQuantityInteractive(1.6160E-35 , 'm') | ||||
P_l.__doc__ = """Planck length """ | ||||
P_t = PhysicalQuantityInteractive(5.3906E-44 , 's') | ||||
P_t.__doc__ = """Planck time """ | ||||
# Electromagnetic Constants | ||||
#------------------------------------------------------------------------ | ||||
_e = PhysicalQuantityInteractive(1.602176462E-19 , 'C') | ||||
_e.__doc__ = """elementary charge""" | ||||
q = _e | ||||
capitalphi_0 = PhysicalQuantityInteractive(2.067833636E-15 , 'Wb') | ||||
capitalphi_0.__doc__ = """magnetic flux quantum """ | ||||
mfq_0 = PhysicalQuantityInteractive(2.067833636E-15 , 'Wb') | ||||
G_0 = PhysicalQuantityInteractive(7.748091696E-5 , 'S') | ||||
G_0.__doc__ = """conductance quantum """ | ||||
K_J = PhysicalQuantityInteractive(483597.898E9 , 'Hz/V') | ||||
K_J.__doc__ = """Josephson constant""" | ||||
R_K = PhysicalQuantityInteractive(25812.807572 , 'ohm') | ||||
R_K.__doc__ = """von Klitzing constant""" | ||||
u_B = PhysicalQuantityInteractive(927.400899E-26 , 'J/T') | ||||
u_B.__doc__ = """Bohr magneton""" | ||||
ueVT_B = PhysicalQuantityInteractive(5.788381749E-5 , 'eV/T') | ||||
ueVT_B.__doc__ = """Bohr magneton in eV T-1""" | ||||
u_N = PhysicalQuantityInteractive(5.05078317E-27 , 'J/T') | ||||
u_N.__doc__ = """nuclear magneton """ | ||||
ueVT_N = PhysicalQuantityInteractive(3.152451238E-8 , 'eV/T') | ||||
ueVT_N.__doc__ = """nuclear magneton in eV T-1 """ | ||||
# Atomic and Nuclear Constants | ||||
# General | ||||
#------------------------------------------------------------------------- | ||||
# fine-structure constant | ||||
alpha = 7.297352533E-3 | ||||
Ry = PhysicalQuantityInteractive(10973731.568549 , '1/m') | ||||
Ry.__doc__ = """Rydberg constant """ | ||||
Ry_INF = PhysicalQuantityInteractive(10973731.568549 , '1/m') | ||||
a_0 = PhysicalQuantityInteractive(0.5291772083E-10 , 'm') | ||||
a_0.__doc__ = """Bohr radius """ | ||||
E_h = PhysicalQuantityInteractive(4.35974381E-18 , 'J') | ||||
E_h.__doc__ = """Hartree energy """ | ||||
Eev_h = PhysicalQuantityInteractive(27.2113834 , 'eV') | ||||
Eev_h.__doc__ = """Hartree energy in eV """ | ||||
qcir2 = PhysicalQuantityInteractive(3.636947516E-4 , 'm**2/s') | ||||
qcir2.__doc__ = """quantum of circulation h/(2me) """ | ||||
qcir = PhysicalQuantityInteractive(7.273895032E-4 , 'm**2/s') | ||||
qcir.__doc__ = """quantum of circulation h/(me) """ | ||||
# Electroweak | ||||
#------------------------------------------------------------------------- | ||||
Fcc = PhysicalQuantityInteractive(1.16639E-5 , '1/GeV**2') | ||||
Fcc.__doc__ = """Fermi coupling constant """ | ||||
# weak mixing angled W (on-shell scheme) | ||||
wma_W = 0.2224 | ||||
# Electron, e- | ||||
#------------------------------------------------------------------------- | ||||
m_e = PhysicalQuantityInteractive(9.10938188E-31 , 'kg') | ||||
m_e.__doc__ = """electron mass """ | ||||
m_e_u = PhysicalQuantityInteractive(5.485799110E-4 , 'amu') | ||||
m_e_u.__doc__ = """electron mass (electron relative atomic mass times amu)""" | ||||
me_J = PhysicalQuantityInteractive(8.18710414E-14 , 'J') | ||||
me_J.__doc__ = """electron mass - energy equivalent """ | ||||
me_MeV = PhysicalQuantityInteractive(0.510998902 , 'MeV') | ||||
me_MeV.__doc__ = """electron mass - energy equivalent in MeV""" | ||||
# electron-muon mass ratio | ||||
memu = 4.83633210E-3 | ||||
# electron-tau mass ratio | ||||
metau = 2.87555E-4 | ||||
# electron-proton mass ratio | ||||
memp = 5.446170232E-4 | ||||
# electron-neutron mass ratio | ||||
memn = 5.438673462E-4 | ||||
# electron-deuteron mass ratio | ||||
memd = 2.7244371170E-4 | ||||
# electron to alpha particle mass ratio | ||||
memalpha = 1.3709335611E-4 | ||||
echargeemass = PhysicalQuantityInteractive(-1.758820174E11 , 'C/kg') | ||||
echargeemass.__doc__ = """electron charge to mass quotient """ | ||||
Molar_e = PhysicalQuantityInteractive(5.485799110E-7 , 'kg/mol') | ||||
Molar_e.__doc__ = """electron molar mass """ | ||||
lambdaC = PhysicalQuantityInteractive(2.426310215E-12 , 'm') | ||||
lambdaC.__doc__ = """Compton wavelength """ | ||||
r_e = PhysicalQuantityInteractive(2.817940285E-15 , 'm') | ||||
r_e.__doc__ = """classical electron radius """ | ||||
sigma_e = PhysicalQuantityInteractive(0.665245854E-28 , 'm**2') | ||||
sigma_e.__doc__ = """Thomson cross section """ | ||||
u_e = PhysicalQuantityInteractive(-928.476362E-26 , 'J/T') | ||||
u_e.__doc__ = """electron magnetic moment """ | ||||
# electron magnetic moment to Bohr magneton ratio | ||||
ueuB = -1.0011596521869 | ||||
# electron magnetic moment to nuclear magneton ratio | ||||
ueuN = -1838.2819660 | ||||
# electron magnetic moment anomaly |ue|/uB - 1 | ||||
a_e = 1.1596521869E-3 | ||||
# electron g-factor | ||||
g_e = -2.0023193043737 | ||||
# electron-muon magnetic moment ratio | ||||
ueuu = 206.7669720 | ||||
# electron-proton magnetic moment ratio | ||||
ueup = -658.2106875 | ||||
# electron to shielded proton magnetic moment ratio (H2O, sphere, 25 C) | ||||
ueusp = -658.2275954 | ||||
# electron-neutron magnetic moment ratio | ||||
ueun = 960.92050 | ||||
# electron-deuteron magnetic moment ratio | ||||
ueud = -2143.923498 | ||||
# electron to shielded helione magnetic moment ratio (gas, sphere, 25 C) | ||||
ueush = 864.058255 | ||||
gamma_e = PhysicalQuantityInteractive(1.760859794E11 , '1/(s*T)') | ||||
gamma_e.__doc__ = """electron gyromagnetic ratio """ | ||||
# Muon, u- | ||||
#------------------------------------------------------------------------- | ||||
m_u = PhysicalQuantityInteractive(1.88353109E-28 , 'kg') | ||||
m_u.__doc__ = """muon mass """ | ||||
mu_u = PhysicalQuantityInteractive(0.1134289168 , 'amu') | ||||
mu_u.__doc__ = """muon mass in muon relative atomic mass times amu """ | ||||
muc2_J = PhysicalQuantityInteractive(1.69283332E-11 , 'J') | ||||
muc2_J.__doc__ = """energy equivalent """ | ||||
muc2_MeV = PhysicalQuantityInteractive(105.6583568 , 'MeV') | ||||
muc2_MeV.__doc__ = """energy equivalent in MeV """ | ||||
# muon-electron mass ratio | ||||
mume = 206.7682657 | ||||
# muon-tau mass ratio | ||||
mum = 5.94572E-2 | ||||
# muon-proton mass ratio | ||||
mump = 0.1126095173 | ||||
# muon-neutron mass ratio | ||||
mumn = 0.1124545079 | ||||
Molar_u = PhysicalQuantityInteractive(0.1134289168E-3 , 'kg/mol') | ||||
Molar_u.__doc__ = """muon molar mass """ | ||||
lambda_C_u = PhysicalQuantityInteractive(11.73444197E-15 , 'm') | ||||
lambda_C_u.__doc__ = """muon Compton wavelength """ | ||||
uu = PhysicalQuantityInteractive(-4.49044813E-26 , 'J/T') | ||||
uu.__doc__ = """muon magnetic moment """ | ||||
# ratio of muon magnetic moment to Bohr magneton ratio | ||||
uuuB = -4.84197085E-3 | ||||
# ratio of muon magnetic moment to nuclear magneton ratio | ||||
uuuN = -8.89059770 | ||||
# muon magnetic moment anomaly |uu|/(e /2mu) - 1 | ||||
a_u = 1.16591602E-3 | ||||
# muon g-factor -2(1 + au) | ||||
g_u = -2.0023318320 | ||||
# muon-proton magnetic moment ratio | ||||
uuup = -3.18334539 | ||||
# Tau, tau- | ||||
#------------------------------------------------------------------------- | ||||
m_tau = PhysicalQuantityInteractive(3.16788E-27 , 'kg') | ||||
m_tau.__doc__ = """tau mass """ | ||||
mu_tau = PhysicalQuantityInteractive(1.90774 , 'amu') | ||||
mu_tau.__doc__ = """tau mass (tau relative atomic mass times amu) """ | ||||
mtauc2_J = PhysicalQuantityInteractive(2.84715E-10 , 'J') | ||||
mtauc2_J.__doc__ = """tau mass energy equivalent """ | ||||
mtauc2_MeV = PhysicalQuantityInteractive(1777.05 , 'MeV') | ||||
mtauc2_MeV.__doc__ = """tau mass energy equivalent in MeV """ | ||||
# tau-electron mass ratio | ||||
mtaume = 3477.60 | ||||
# tau-muon mass ratio | ||||
mtaumu = 16.8188 | ||||
# tau-proton mass ratio | ||||
mtaump = 1.89396 | ||||
# tau-neutron mass ratio | ||||
mtaumn = 1.89135 | ||||
Molar_tau = PhysicalQuantityInteractive(1.90774E-3 , 'kg/mol') | ||||
Molar_tau.__doc__ = """tau molar mass """ | ||||
lambda_C_tau = PhysicalQuantityInteractive(0.69770E-15 , 'm') | ||||
lambda_C_tau.__doc__ = """tau Compton wavelength """ | ||||
# Proton, p | ||||
#------------------------------------------------------------------------- | ||||
m_p = PhysicalQuantityInteractive(1.67262158E-27 , 'kg') | ||||
m_p.__doc__ = """proton mass """ | ||||
mu_p = PhysicalQuantityInteractive(1.00727646688 , 'amu') | ||||
mu_p.__doc__ = """proton mass (proton relative atomic mass times amu) """ | ||||
mpc2_J = PhysicalQuantityInteractive(1.50327731E-10 , 'J') | ||||
mpc2_J.__doc__ = """energy equivalent """ | ||||
mpc2_MeV = PhysicalQuantityInteractive(938.271998 , 'MeV') | ||||
mpc2_MeV.__doc__ = """energy equivalent in MeV """ | ||||
# proton-electron mass ratio | ||||
mpme = 1836.1526675 | ||||
# proton-muon mass ratio | ||||
mpmu = 8.88024408 | ||||
# proton-tau mass ratio | ||||
mpmtau = 0.527994 | ||||
# proton-neutron mass ratio | ||||
mpmn = 0.99862347855 | ||||
emp = PhysicalQuantityInteractive(9.57883408E7 , 'C/kg') | ||||
emp.__doc__ = """proton charge to mass quotient """ | ||||
Molar_p = PhysicalQuantityInteractive(1.00727646688E-3 , 'kg/mol') | ||||
Molar_p.__doc__ = """proton molar mass """ | ||||
lambda_C_p = PhysicalQuantityInteractive(1.321409847E-15 , 'm') | ||||
lambda_C_p.__doc__ = """proton Compton wavelength h/mpc """ | ||||
up = PhysicalQuantityInteractive(1.410606633E-26 , 'J/T') | ||||
up.__doc__ = """proton magnetic moment """ | ||||
# proton magnetic moment to Bohr magneton ratio | ||||
upuB = 1.521032203E-3 | ||||
# proton magnetic moment to nuclear magneton ratio | ||||
upuN = 2.792847337 | ||||
# proton g-factor 2up/uN | ||||
g_p = 5.585694675 | ||||
# proton-neutron magnetic moment ratio | ||||
upun = -1.45989805 | ||||
usp = PhysicalQuantityInteractive(1.410570399E-26 , 'J/T') | ||||
usp.__doc__ = """shielded proton magnetic moment (H2O, sphere, 25 C)""" | ||||
# shielded proton magnetic moment to Bohr magneton ratio | ||||
uspuB = 1.520993132E-3 | ||||
# shielded proton magnetic moment to nuclear magneton ratio | ||||
uspuN = 2.792775597 | ||||
# proton magnetic shielding correction 1 - u p/up (H2O, sphere, 25 C) | ||||
spc = 25.687E-6 | ||||
gamma_p = PhysicalQuantityInteractive(2.67522212E8 , '1/(s*T)') | ||||
gamma_p.__doc__ = """proton gyromagnetic ratio """ | ||||
gamma_sp = PhysicalQuantityInteractive(2.67515341E8 , '1/(s*T)') | ||||
gamma_sp.__doc__ = """shielded proton gyromagnetic ratio (H2O, sphere, 25 C)""" | ||||
# Neutron, n | ||||
#------------------------------------------------------------------------- | ||||
m_n = PhysicalQuantityInteractive(1.67492716E-27 , 'kg') | ||||
m_n.__doc__ = """neutron mass """ | ||||
mu_n = PhysicalQuantityInteractive(1.00866491578 , 'amu') | ||||
mu_n.__doc__ = """neutron mass (neutron relative atomic mass times amu) """ | ||||
mnc2_J = PhysicalQuantityInteractive(1.50534946E-10 , 'J') | ||||
mnc2_J.__doc__ = """neutron mass energy equivalent """ | ||||
mnc2_MeV = PhysicalQuantityInteractive(939.565330 , 'MeV') | ||||
mnc2_MeV.__doc__ = """neutron mass energy equivalent in MeV """ | ||||
# neutron-electron mass ratio | ||||
mnme = 1838.6836550 | ||||
# neutron-muon mass ratio | ||||
mnmu = 8.89248478 | ||||
# neutron-tau mass ratio | ||||
mnm = 0.528722 | ||||
# neutron-proton mass ratio | ||||
mnmp = 1.00137841887 | ||||
Molar_n = PhysicalQuantityInteractive(1.00866491578E-3 , 'kg/mol') | ||||
Molar_n.__doc__ = """neutron molar mass """ | ||||
lambda_C_n = PhysicalQuantityInteractive(1.319590898E-15 , 'm') | ||||
lambda_C_n.__doc__ = """neutron Compton wavelength""" | ||||
un = PhysicalQuantityInteractive(-0.96623640E-26 , 'J/T') | ||||
un.__doc__ = """neutron magnetic moment """ | ||||
# neutron magnetic moment to Bohr magneton ratio | ||||
unuB = -1.04187563E-3 | ||||
# neutron magnetic moment to nuclear magneton ratio | ||||
unuN = -1.91304272 | ||||
# neutron g-factor | ||||
g_n = -3.82608545 | ||||
# neutron-electron magnetic moment ratio | ||||
unue = 1.04066882E-3 | ||||
# neutron-proton magnetic moment ratio | ||||
unup = -0.68497934 | ||||
# neutron to shielded proton magnetic moment ratio (H2O, sphere, 25 C) | ||||
unusp = -0.68499694 | ||||
gamma_n = PhysicalQuantityInteractive(1.83247188E8 , '1/(s*T)') | ||||
gamma_n.__doc__ = """neutron gyromagnetic ratio """ | ||||
# Deuteron, d | ||||
#------------------------------------------------------------------------- | ||||
m_d = PhysicalQuantityInteractive(3.34358309E-27 , 'kg') | ||||
m_d.__doc__ = """deuteron mass """ | ||||
mu_d = PhysicalQuantityInteractive(2.01355321271 , 'amu') | ||||
mu_d.__doc__ = """deuteron mass (deuteron relative atomic mass times amu) """ | ||||
mdc2_J = PhysicalQuantityInteractive(3.00506262E-10 , 'J') | ||||
mdc2_J.__doc__ = """deuteron mass energy equivalent """ | ||||
mdc2_eV = PhysicalQuantityInteractive(1875.612762 , 'MeV') | ||||
mdc2_eV.__doc__ = """deuteron mass energy equivalent in MeV """ | ||||
# deuteron-electron mass ratio | ||||
mdme = 3670.4829550 | ||||
# deuteron-proton mass ratio | ||||
mdmp = 1.99900750083 | ||||
Molar_d = PhysicalQuantityInteractive(2.01355321271E-3 , 'kg/mol') | ||||
Molar_d.__doc__ = """deuteron molar mass """ | ||||
ud = PhysicalQuantityInteractive(0.433073457E-26 , 'J/T') | ||||
ud.__doc__ = """deuteron magnetic moment """ | ||||
# deuteron magnetic moment to Bohr magneton ratio | ||||
uduB = 0.4669754556E-3 | ||||
# deuteron magnetic moment to nuclear magneton ratio | ||||
uduN = 0.8574382284 | ||||
# deuteron-electron magnetic moment ratio | ||||
udue = -4.664345537E-4 | ||||
# deuteron-proton magnetic moment ratio | ||||
udup = 0.3070122083 | ||||
# deuteron-neutron magnetic moment ratio | ||||
udun = -0.44820652 | ||||
# Helion, h | ||||
#------------------------------------------------------------------------- | ||||
m_h = PhysicalQuantityInteractive(5.00641174E-27 , 'kg') | ||||
m_h.__doc__ = """helion mass """ | ||||
mu_h = PhysicalQuantityInteractive(3.01493223469 , 'amu') | ||||
mu_h.__doc__ = """helion mass (helion relative atomic mass times amu) """ | ||||
mhc2_J = PhysicalQuantityInteractive(4.49953848E-10 , 'J') | ||||
mhc2_J.__doc__ = """helion mass energy equivalent """ | ||||
mhc2_MeV = PhysicalQuantityInteractive(2808.39132 , 'MeV') | ||||
mhc2_MeV.__doc__ = """helion mass energy equivalent in MeV """ | ||||
# helion-electron mass ratio | ||||
mhme = 5495.885238 | ||||
# helion-proton mass ratio | ||||
mhmp = 2.99315265850 | ||||
Molar_h = PhysicalQuantityInteractive(3.01493223469E-3 , 'kg/mol') | ||||
Molar_h.__doc__ = """helion molar mass """ | ||||
ush = PhysicalQuantityInteractive(-1.074552967E-26 , 'J/T') | ||||
ush.__doc__ = """shielded helion magnetic moment (gas, sphere, 25 C)""" | ||||
# shielded helion magnetic moment to Bohr magneton ratio | ||||
ushuB = -1.158671474E-3 | ||||
# shielded helion magnetic moment to nuclear magneton ratio | ||||
ushuN = -2.127497718 | ||||
# shielded helion to proton magnetic moment ratio (gas, sphere, 25 C) | ||||
ushup = -0.761766563 | ||||
# shielded helion to shielded proton magnetic moment ratio (gas/H2O, spheres, 25 C) | ||||
ushusp = -0.7617861313 | ||||
gamma_h = PhysicalQuantityInteractive(2.037894764E8 , '1/(s*T)') | ||||
gamma_h.__doc__ = """shielded helion gyromagnetic (gas, sphere, 25 C) """ | ||||
# Alpha particle, | ||||
#------------------------------------------------------------------------- | ||||
m_alpha = PhysicalQuantityInteractive(6.64465598E-27 , 'kg') | ||||
m_alpha.__doc__ = """alpha particle mass """ | ||||
mu_alpha = PhysicalQuantityInteractive(4.0015061747 , 'amu') | ||||
mu_alpha.__doc__ = """alpha particle mass (alpha particle relative atomic mass times amu) """ | ||||
malphac2_J = PhysicalQuantityInteractive(5.97191897E-10 , 'J') | ||||
malphac2_J.__doc__ = """alpha particle mass energy equivalent """ | ||||
malphac2_MeV = PhysicalQuantityInteractive(3727.37904 , 'MeV') | ||||
malphac2_MeV.__doc__ = """alpha particle mass energy equivalent in MeV """ | ||||
# alpha particle to electron mass ratio | ||||
malphame = 7294.299508 | ||||
# alpha particle to proton mass ratio | ||||
malphamp = 3.9725996846 | ||||
Molar_alpha = PhysicalQuantityInteractive(4.0015061747E-3 , 'kg/mol') | ||||
Molar_alpha.__doc__ = """alpha particle molar mass""" | ||||
# PHYSICO-CHEMICAL | ||||
#------------------------------------------------------------------------- | ||||
N_A = PhysicalQuantityInteractive(6.02214199E23 , '1/mol') | ||||
N_A.__doc__ = """Avogadro constant """ | ||||
L = PhysicalQuantityInteractive(6.02214199E23 , '1/mol') | ||||
m_u = PhysicalQuantityInteractive(1.66053873E-27 , 'kg') | ||||
m_u.__doc__ = """atomic mass constant mu = 112m(12C) = 1 u = 10E-3 kg mol-1/NA""" | ||||
# atomic mass constant mu = 112m(12C) = 1 u = 10E-3 kg mol-1/NA | ||||
amu = m_u | ||||
muc2_J = PhysicalQuantityInteractive(1.49241778E-10 , 'J') | ||||
muc2_J.__doc__ = """energy equivalent of the atomic mass constant""" | ||||
muc2_MeV = PhysicalQuantityInteractive(931.494013 , 'MeV') | ||||
muc2_MeV.__doc__ = """energy equivalent of the atomic mass constant in MeV """ | ||||
F = PhysicalQuantityInteractive(96485.3415 , 'C/mol') | ||||
F.__doc__ = """Faraday constant""" | ||||
N_Ah = PhysicalQuantityInteractive(3.990312689E-10 , 'J*s/mol') | ||||
N_Ah.__doc__ = """molar Planck constant """ | ||||
R = PhysicalQuantityInteractive(8.314472 , 'J/(mol*K)') | ||||
R.__doc__ = """molar gas constant """ | ||||
k_J = PhysicalQuantityInteractive(1.3806503E-23 , 'J/K') | ||||
k_J.__doc__ = """Boltzmann constant """ | ||||
k_eV = PhysicalQuantityInteractive(8.617342E-5 , 'eV/K') | ||||
k_eV.__doc__ = """Boltzmann constant in eV """ | ||||
n_0 = PhysicalQuantityInteractive(2.6867775E25 , '1/m**3') | ||||
n_0.__doc__ = """Loschmidt constant NA/Vm """ | ||||
Vm_1 = PhysicalQuantityInteractive(22.413996E-3 , 'm**3/mol') | ||||
Vm_1.__doc__ = """molar volume of ideal gas RT/p T = 273.15 K, p = 101.325 kPa """ | ||||
Vm_2 = PhysicalQuantityInteractive(22.710981E-3 , 'm**3/mol') | ||||
Vm_2.__doc__ = """molar volume of ideal gas RT/p T = 273.15 K, p = 100 kPa """ | ||||
# Sackur-Tetrode constant (absolute entropy constant) 52 + ln_(2 mukT1/h2)3/2kT1/p0 | ||||
# T1 = 1 K, p0 = 100 kPa | ||||
S_0R_1 = -1.1517048 | ||||
# T1 = 1 K, p0 = 101.325 kPa | ||||
S_0R_2 = -1.1648678 | ||||
sigma = PhysicalQuantityInteractive(5.670400E-8 , 'W/(m**2*K**4)') | ||||
sigma.__doc__ = """Stefan-Boltzmann constant """ | ||||
c_1 = PhysicalQuantityInteractive(3.74177107E-16 , 'W*m**2') | ||||
c_1.__doc__ = """first radiation constant""" | ||||
c_1L = PhysicalQuantityInteractive(1.191042722E-16 , 'W*m**2/sr') | ||||
c_1L.__doc__ = """first radiation constant for spectral radiance""" | ||||
c_2 = PhysicalQuantityInteractive(1.4387752E-2 , 'm*K') | ||||
c_2.__doc__ = """second radiation constant""" | ||||
b = PhysicalQuantityInteractive(2.8977686E-3 , 'm*K') | ||||
b.__doc__ = """Wien displacement law constant b = maxT = c2/4.965 114231... """ | ||||