基本物理常数
Quantity量
speed of light in vacuum光在真空中的速度magn. constant MAGN。不变
electric constant电热恒温characteristic impedance of vacuum特性阻抗的真空Newtonian constant of gravitation万有引力常数Newtonian constant of gravitation over
h-bar c
牛顿万有引力常数H-巴C Planck constant普朗克常数
Planck constant in eV s普朗克常数EV小号
Planck constant over 2 pi times c in MeV fm 普朗克常数超过2次c MeV的FM PI
Planck constant over 2 pi普朗克常数超过2 PI
Planck constant over 2 pi in eV s普朗克常数超过2π的EV小号
Planck mass普朗克质量
Planck temperature普朗克温度
Planck length普朗克长度
Planck time普朗克时间
elementary charge基本电荷
elementary charge over h基本电荷较H
magn. flux quantum MAGN。磁通量子
conductance quantum电导量子
inverse of conductance quantum逆的量子电导
Josephson constant约瑟夫森常数
von Klitzing constant冯Klitzing不变
Bohr magneton玻尔磁子
Bohr magneton in eV/T"EV / T单位下的玻尔磁子"
Bohr magneton in Hz/T"Hz / T单位下的玻尔磁子"
Bohr magneton in inverse meters per
tesla
玻尔磁子的逆米,每颗Tesla
Bohr magneton in K/T"K / T单位下的玻尔磁子"
nuclear magneton核磁
nuclear magneton in eV/T核磁EV / T
nuclear magneton in MHz/T核磁以MHz / T
nuclear magneton in inverse meters per
tesla
在逆米,每颗Tesla核磁
nuclear magneton in K/T在K / T核磁
fine-structure constant精细结构常数
inverse fine-structure constant逆精细结构常数
Rydberg constant里德伯常数
Rydberg constant times c in Hz里德伯常数次c,单位为Hz
Rydberg constant times hc in J里德伯常数次HC在J
Rydberg constant times hc in eV里德伯常数倍EV在HC
Bohr radius玻尔半径
Hartree energy哈特里能源
Hartree energy in eV哈特里能在EV
quantum of circulation量子流通
quantum of circulation times 2量子循环时间2
Fermi coupling constant费米耦合常数
Fundamental Physical
weak mixing angle弱混合角
electron mass电子质量
electron mass in u电子质量在u
electron mass energy equivalent电子质量的能量相当于electron mass energy equivalent in MeV电子质量在兆电子伏的能量相electron-muon mass ratio电子,μ介子的质量比electron-tau mass ratio电子tau蛋白的质量比electron-proton mass ratio电子,质子的质量比electron-neutron mass ratio电子,中子的质量比electron-deuteron mass ratio电子氘核的质量比
electron to alpha particle mass ratioα粒子的质量比电子electron charge to mass quotient电子电荷量的商
electron molar mass电子摩尔质量
Compton wavelength康普顿波长
Compton wavelength over 2 pi康普顿波长超过2 PI classical electron radius经典电子半径
Thomson cross section汤姆森横截面
electron magn. moment电子MAGN。时刻
electron magn. moment to Bohr magneton ratio 电子MAGN。时刻玻尔磁子的比例
electron magn. moment to nuclear
magneton ratio
电子MAGN。时刻核磁比electron magn. moment anomaly电子MAGN。时刻异常electron g factor电子g因子
electron-muon magn. moment ratio电子介子MAGN。时刻比electron-proton magn. moment ratio电子质子MAGN。时刻比electron to shielded proton magn.
moment ratio
电子屏蔽的质子MAGN。时刻比electron-neutron magn. moment ratio电子中子MAGN。时刻比electron-deuteron magn. moment ratio电子氘核MAGN。时刻比electron to shielded helion magn.
moment ratio
电子屏蔽氦核MAGN。时刻比electron gyromagn. ratio电子gyromagn。比
electron gyromagn. ratio over 2 pi电子gyromagn。率超过2 PI muon massμ介子的质量
muon mass in uμ介子的质量在u
muon mass energy equivalentμ子质量的能量相当于
muon mass energy equivalent in MeV μ介子的质量在兆电子伏的能量相当于
muon-electron mass ratioμ子电子的质量比muon-tau mass ratioμ子tau蛋白的质量比muon-proton mass ratioμ介子 - 质子质量比muon-neutron mass ratioμ介子,中子的质量比muon molar massμ介子的摩尔质量muon Compton wavelengthμ介子的康普顿波长muon Compton wavelength over 2 pi2π介子康普顿波长超过muon magn. momentμ介子MAGN。时刻
muon magn. moment to Bohr magneton ratio μ介子MAGN。时刻玻尔磁子的
muon magn. moment to nuclear magneton
ratio
μ介子MAGN。时刻核磁比muon magn. moment anomalyμ介子MAGN。时刻异常
muon g factorμ子g因子
muon-proton magn. moment ratio介子质子MAGN。时刻比tau mass头质量
tau mass in u tau蛋白质量在u
tau mass energy equivalent头质量的能量相当于
tau mass energy equivalent in MeV tau蛋白质量在兆电子伏的能量相当于
tau-electron mass ratio头电子的质量比
tau-muon mass ratio TAU-μ介子的质量比tau-proton mass ratio头质子的质量比
tau-neutron mass ratio头中子的质量比
tau molar mass头摩尔质量
tau Compton wavelength头康普顿波长
tau Compton wavelength over 2 pi头康普顿波长超过2 PI proton mass质子的质量
proton mass in u质子的质量在u
proton mass energy equivalent质子质量的能量相当于
proton mass energy equivalent in MeV 中兆电子伏特的质子质量的能量相当于
proton-electron mass ratio质子电子质量比
proton-muon mass ratio质子,μ介子的质量比proton-tau mass ratio质子-tau蛋白的质量比proton-neutron mass ratio质子,中子的质量比proton charge to mass quotient质子电荷量的商
proton molar mass质子摩尔质量
proton Compton wavelength质子康普顿波长
proton Compton wavelength over 2 pi质子康普顿波长超过2 PI proton magn. moment质子MAGN。时刻
proton magn. moment to Bohr magneton ratio 质子MAGN。时刻玻尔磁子的比例
proton magn. moment to nuclear magneton
ratio
质子MAGN。时刻核磁比proton g factor质子g因子
proton-neutron magn. moment ratio质子 - 中子MAGN。时刻比shielded proton magn. moment屏蔽质子MAGN。时刻
shielded proton magn. moment to Bohr magneton ratio 屏蔽质子MAGN。时刻玻尔磁子的比例
shielded proton magn. moment to nuclear
magneton ratio
屏蔽质子MAGN。时刻核磁比proton magn. shielding correction质子MAGN。屏蔽修正proton gyromagn. ratio质子gyromagn。比
proton gyromagn. ratio over 2 pi质子gyromagn。率超过2 PI shielded proton gyromagn. ratio屏蔽质子gyromagn。比
shielded proton gyromagn. ratio over 2 pi 屏蔽质子gyromagn。率超过2 PI
proton rms charge radius质子均方根电荷半径neutron mass中子的质量
neutron mass in u中子的质量在u neutron mass energy equivalent中子的质量能量相当于
neutron mass energy equivalent in MeV 中子的质量在兆电子伏的能量相当于
neutron-electron mass ratio中子,电子的质量比neutron-muon mass ratio中子,介子的质量比neutron-tau mass ratio中子头的质量比neutron-proton mass ratio中子 - 质子质量比neutron molar mass中子的摩尔质量neutron Compton wavelength中子康普顿波长neutron Compton wavelength over 2 pi中子康普顿波长超过2πneutron magn. moment中子MAGN。时刻
neutron magn. moment to Bohr magneton ratio 中子MAGN。时刻玻尔磁子的比例
neutron magn. moment to nuclear
magneton ratio
中子MAGN。时刻核磁比neutron g factor中子g因子
neutron-electron magn. moment ratio中子电子MAGN。时刻比neutron-proton magn. moment ratio中子 - 质子MAGN。时刻比neutron to shielded proton magn. moment
ratio
中子屏蔽的质子MAGN。时刻比neutron gyromagn. ratio中子gyromagn。比
neutron gyromagn. ratio over 2 pi中子gyromagn。率超过2 PI deuteron mass氘核质量
deuteron mass in u在u氘核质量
deuteron mass energy equivalent氘核质量的能量相当于deuteron mass energy equivalent in MeV氘核质量在兆电子伏的能量相deuteron-electron mass ratio氘核 - 电子的质量比deuteron-proton mass ratio氘 - 质子质量比
deuteron molar mass氘摩尔质量
deuteron magn. moment氘核MAGN。时刻
deuteron magn. moment to Bohr magneton ratio 氘核MAGN。时刻玻尔磁子的比例
deuteron magn. moment to nuclear
magneton ratio
氘核MAGN。时刻核磁比deuteron-electron magn. moment ratio氘 - 电子MAGN。时刻比deuteron-proton magn. moment ratio氘核质子MAGN。时刻比deuteron-neutron magn. moment ratio氘核中子MAGN。时刻比deuteron rms charge radius氘核均方根电荷半径
helion mass氦核质量
helion mass in u氦核质量在u
helion mass energy equivalent氦核质量的能量相当于helion mass energy equivalent in MeV氦核质量在兆电子伏的能量相helion-electron mass ratio氦核电子质量比
helion-proton mass ratio氦核质子的质量比
helion molar mass氦核的摩尔质量
shielded helion magn. moment屏蔽:氦核励磁。时刻
shielded helion magn. moment to Bohr magneton ratio 屏蔽:氦核励磁。时刻玻尔磁子的比例
shielded helion magn. moment to nuclear
magneton ratio
屏蔽:氦核励磁。时刻核磁比shielded helion to proton magn. moment
ratio
屏蔽氦核的质子MAGN。时刻比
shielded helion to shielded proton magn. moment ratio 屏蔽氦核屏蔽质子MAGN。时刻比
shielded helion gyromagn. ratio屏蔽:氦核gyromagn。比
shielded helion gyromagn. ratio over 2 pi 屏蔽:氦核gyromagn。率超过2 PI
alpha particle massα粒子的质量
alpha particle mass in uα粒子的质量在u
alpha particle mass energy equivalentα粒子质量的能量相当于
alpha particle mass energy equivalent in MeV 在MeV的α粒子质量的能量相当于
alpha particle-electron mass ratioα粒子的电子的质量比alpha particle-proton mass ratioα粒子,质子的质量比alpha particle molar massα粒子的摩尔质量Avogadro constant阿伏伽德罗常数
atomic mass constant原子质量不变
atomic mass constant energy equivalent原子质量恒定的能量相当于
atomic mass constant energy equivalent in MeV 在兆电子伏的能量相当于原子质量不变
Faraday constant法拉第常数
Faraday constant for conventional
electric current
传统的电流为法拉第常数molar Planck constant摩尔普朗克常数
molar Planck constant times c摩尔普朗克常数次c
molar gas constant摩尔气体常数
Boltzmann constant玻耳兹曼常数
Boltzmann constant in eV/K"EV / K单位下的玻耳兹曼常数Boltzmann constant in Hz/K"Hz / K单位下的玻耳兹曼常数Boltzmann constant in inverse meters
per kelvin
玻尔兹曼常数的逆米每开尔文
molar volume of ideal gas (273.15 K, 101.325 kPa)理想气体摩尔体积(273.15 K,101.325千帕)
Loschmidt constant (273.15 K, 101.325 kPa)洛希米特常数(273.15 K,101.325千帕)
molar volume of ideal gas (273.15 K, 100 kPa)理想气体摩尔体积(273.15 K,100千帕)
Sackur-Tetrode constant (1 K, 100 kPa)Sackur四极管常数(K,100 kPa)的
Sackur-Tetrode constant (1 K, 101.325 kPa)Sackur四极管常数(K,101.325千帕)
Stefan-Boltzmann constant斯蒂芬 - 玻耳兹曼常数first radiation constant第一辐射常数
first radiation constant for spectral
radiance
第一辐射常数的光谱辐射second radiation constant第二辐射常数
Wien displacement law constant维恩位移定律常数
molar mass of carbon-12摩尔质量的碳-12
molar mass constant摩尔质量不变
conventional value of Josephson constant 传统的约瑟夫森常数值
conventional value of von Klitzing
constant
传统的价值,冯Klitzing不变standard atmosphere标准大气压
standard acceleration of gravity标准重力加速度
Cu x unit铜×单位
Mo x unit莫×单位
Angstrom star埃星
lattice parameter of silicon硅的晶格参数
{220} lattice spacing of silicon{220}晶面间距的硅
molar volume of silicon硅的摩尔体积
electron volt电子伏特
unified atomic mass unit统一原子质量单位
natural unit of velocity速度自然单元
natural unit of action自然单元行动
natural unit of action in eV s自然单位的行动EV小号natural unit of mass自然单元质量
natural unit of energy自然单元能量
natural unit of energy in MeV兆电子伏的能量在自然单位natural unit of momentum自然单元势头
natural unit of momentum in MeV/c自然单元势头兆电子伏特/ C natural unit of length自然长度单位
natural unit of time自然单元的时间
atomic unit of charge原子单位负责
atomic unit of mass原子质量单位
atomic unit of action原子单位的行动
atomic unit of length原子的长度单位
atomic unit of energy原子单位的能源
atomic unit of time原子单位时间
atomic unit of force原子力的单位
atomic unit of velocity原子的速度单位
atomic unit of momentum原子单元的势头
atomic unit of current原子单元的电流
atomic unit of charge density原子单元的电荷密度
atomic unit of electric potential原子单元的电势
atomic unit of electric field原子单位电场
atomic unit of electric field gradient原子单位电场梯度
atomic unit of electric dipole moment原子单元的电偶极矩
atomic unit of electric quadrupole
moment
原子单元的电四极矩
atomic unit of electric polarizablity原子单元的电polarizablity
atomic unit of 1st hyperpolarizablity 原子单元的第一hyperpolarizablity
atomic unit of 2nd hyperpolarizablity原子第二hyperpolarizablity atomic unit of magn. flux density MAGN的基本单位。磁通密度atomic unit of magn. dipole moment MAGN的基本单位。偶极矩atomic unit of magnetizability原子单元的磁化
atomic unit of permittivity原子单元的介电常数
joule-kilogram relationship焦耳公斤的关系
joule-inverse meter relationship焦耳逆米关系
joule-hertz relationship焦耳赫兹的关系
joule-kelvin relationship焦耳,开尔文关系
joule-electron volt relationship焦耳电子伏特的关系
joule-atomic mass unit relationship焦耳原子质量单位的关系joule-hartree relationship焦耳哈特里关系
kilogram-joule relationship公斤焦耳关系的
kilogram-inverse meter relationship逆公斤米关系
kilogram-hertz relationship公斤赫兹之间的关系
kilogram-kelvin relationship千克开尔文之间的关系kilogram-electron volt relationship公斤电子伏特的关系kilogram-atomic mass unit relationship公斤原子质量单位的关系kilogram-hartree relationship公斤的Hartree关系inverse meter-joule relationship逆米焦耳关系
inverse meter-kilogram relationship逆米公斤的关系
inverse meter-hertz relationship逆米赫兹关系
inverse meter-kelvin relationship逆米开尔文的关系
inverse meter-electron volt relationship 逆米电子伏特的关系
inverse meter-atomic mass unit
relationship
逆米原子质量单位的关系inverse meter-hartree relationship逆米的Hartree关系
hertz-joule relationship赫兹,焦耳关系的
hertz-kilogram relationship赫兹公斤的关系
hertz-inverse meter relationship赫兹逆仪表关系
hertz-kelvin relationship赫兹开尔文关系
hertz-electron volt relationship赫兹电子伏特的关系
hertz-atomic mass unit relationship赫兹原子质量单位的关系hertz-hartree relationship赫兹哈特里关系
kelvin-joule relationship开尔文焦耳的关系
kelvin-kilogram relationship开尔文公斤的关系
kelvin-inverse meter relationship开尔文 - 逆米关系
kelvin-hertz relationship开尔文赫兹的关系
kelvin-electron volt relationship开尔文电子伏特的关系
kelvin-atomic mass unit relationship开尔文 - 原子质量单位的关系kelvin-hartree relationship开尔文 - 哈特里关系electron volt-joule relationship电子伏特焦耳的关系
electron volt-kilogram relationship电子伏特公斤的关系
electron volt-inverse meter relationship 电子伏特逆米关系
electron volt-hertz relationship电子伏特赫兹的关系
electron volt-kelvin relationship电子伏特开尔文的关系
electron volt-atomic mass unit
relationship
电子伏原子质量单位的关系electron volt-hartree relationship电子伏特的Hartree关系
atomic mass unit-joule relationship原子质量单位焦耳的关系
atomic mass unit-kilogram relationship原子质量单位千克的关系
atomic mass unit-inverse meter
relationship
原子质量单位的逆米关系
atomic mass unit-hertz relationship原子质量单位赫兹的关系
atomic mass unit-kelvin relationship原子质量单位开尔文的关系
atomic mass unit-electron volt
relationship
原子质量单位电子伏特的关系atomic mass unit-hartree relationship原子质量单位哈特里关系的hartree-joule relationship哈特里焦耳的关系
hartree-kilogram relationship哈特里公斤的关系
hartree-inverse meter relationship Hartree-逆米关系
hartree-hertz relationship哈特里赫兹的关系
hartree-kelvin relationship哈特里 - 开尔文关系
hartree-electron volt relationship哈特里电子伏特的关系
hartree-atomic mass unit relationship哈特里原子质量单位的关系Source: Peter J. Mohr and Barry N. Taylor, CODATA Recommended Values of t
sical Constants
Value Uncertainty Unit 299792458(exact)m s^-1
1.25664E-06(exact)N A^-2
8.85419E-12(exact) F m^-1
376.7303135(exact)ohm
6.6742E-111E-14m^3 kg^-1 s^-2
6.7087E-391E-42(GeV/c^2)^-2
6.62607E-34 1.1E-40J s
4.13567E-15 3.5E-22eV s
197.3269680.000017MeV fm
1.05457E-34 1.8E-41J s
6.58212E-16 5.6E-23eV s
2.17645E-08 1.6E-12kg
1.41679E+32 1.1E+28K
1.61624E-35 1.2E-39m
5.39121E-444E-48s
1.60218E-19 1.4E-26C
2.41799E+1421000000 A J^-1
2.06783E-15 1.8E-22Wb
7.74809E-05 2.6E-13S
12906.403730.000043ohm
4.83598E+1441000000Hz V^-1
25812.807450.000086ohm
9.27401E-248E-31J T^-1
5.78838E-05 3.9E-13eV T^-1
139962458001200Hz T^-1
46.68645070.000004m^-1 T^-1
0.67171310.0000012K T^-1
5.05078E-27 4.3E-34J T^-1
3.15245E-08 2.1E-16eV T^-1
7.622593710.00000065MHz T^-1
0.025426236 2.2E-09m^-1 T^-1
0.000365826 6.4E-10K T^-1
0.007297353 2.4E-11
137.03599910.00000046
10973731.570.000073m^-1
3.28984E+1522000Hz
2.17987E-18
3.7E-25J
13.60569230.0000012eV
5.29177E-11 1.8E-19m
4.35974E-187.5E-25J
27.21138450.0000023eV
0.000363695 2.4E-12m^2 s^-1
0.00072739 4.8E-12m^2 s^-1
1.16639E-051E-10GeV^-2
0.222150.00076
9.10938E-31 1.6E-37kg
0.00054858 2.4E-13u
8.1871E-14 1.4E-20J
0.5109989180.000000044MeV
0.004836332 1.3E-10
0.0002875640.000000047
0.000544617 2.5E-13
0.000543867 3.8E-13
0.000272444 1.3E-13
0.000137093 6.1E-14
-1.75882E+1115000 C kg^-1 5.4858E-07 2.4E-16kg mol^-1
2.42631E-12 1.6E-20m
3.86159E-13 2.6E-21m
2.81794E-15 2.8E-23m
6.65246E-29 1.3E-36m^2
-9.28476E-248E-31J T^-1
-1.001159652 3.8E-12
-1838.2819710.00000085
0.001159652 3.8E-12
-2.0023193047.5E-12
206.76698940.0000054
-658.21068620.0000066
-658.22759560.0000071
960.92050.00023
-2143.9234930.000023
864.0582550.00001
1.76086E+1115000s^-1 T^-1 28024.95320.0024MHz T^-1 1.88353E-28 3.3E-35kg
0.1134289260.000000003u
1.69283E-11
2.9E-18J
105.65836920.0000094MeV
206.76828380.0000054
0.05945920.0000097
0.112609527 2.9E-09
0.112454518 2.9E-09
0.0001134293E-12kg mol^-1
1.17344E-143E-22m
1.86759E-15 4.7E-23m
-4.49045E-264E-33J T^-1
-0.00484197 1.3E-10
-8.890596980.00000023
0.00116592 6.2E-10
-2.00233184 1.2E-09
-3.1833451180.000000089
3.16777E-27 5.2E-31kg
1.907680.00031u
2.84705E-10 4.6E-14J
1776.990.29MeV
3477.480.57
16.81830.0027
1.89390.00031
1.891290.00031
0.001907680.00000031kg mol^-1 6.9772E-16 1.1E-19m
1.11046E-16 1.8E-20m
1.67262E-27
2.9E-34kg
1.007276467 1.3E-10u
1.50328E-10
2.6E-17J
938.2720290.00008MeV
1836.1526730.00000085
8.880243330.00000023
0.5280120.000086
0.998623479 5.8E-10
95788337.68.2 C kg^-1
0.001007276 1.3E-13kg mol^-1
1.32141E-158.8E-24m
2.10309E-16 1.4E-24m
1.41061E-26 1.2E-33J T^-1 0.001521032 1.5E-11
2.7928473510.000000028
5.5856947010.000000056
-1.459898050.00000034
1.41057E-26 1.2E-33J T^-1 0.001520993 1.6E-11
2.7927756040.00000003
0.0000256890.000000015
26752220523s^-1 T^-1 42.57748130.0000037MHz T^-1 26751533323s^-1 T^-1
42.57638750.0000037MHz T^-1
8.75E-16 6.8E-18m
1.67493E-27
2.9E-34kg
1.008664916 5.5E-10u
1.50535E-10
2.6E-17J
939.565360.000081MeV
1838.683660.0000013
8.892484020.00000023
0.528740.000086
1.001378419 5.8E-10
0.001008665 5.5E-13kg mol^-1
1.31959E-158.8E-24m
2.10019E-16 1.4E-24m
-9.66236E-27 2.4E-33J T^-1
-0.001041876 2.5E-10
-1.913042730.00000045
-3.826085460.0000009
0.001040669 2.5E-10
-0.684979340.00000016
-0.684996940.00000016
183********s^-1 T^-1 29.1646950.0000073MHz T^-1 3.34358E-27 5.7E-34kg
2.013553213
3.5E-10u
3.00506E-10 5.1E-17J
1875.612820.00016MeV 3670.4829650.0000018
1.999007501 4.1E-10
0.002013553 3.5E-13kg mol^-1 4.33073E-27 3.8E-34J T^-1
0.0004669755E-12
0.8574382339.2E-09
-0.0004664355E-12
0.307012208 4.5E-09
-0.448206520.00000011
2.1394E-15 2.8E-18m
5.00641E-278.6E-34kg
3.014932243 5.8E-09u
4.49954E-107.7E-17J
2808.391420.00024MeV 5495.8852690.000011
2.993152667 5.8E-09
0.003014932 5.8E-12kg mol^-1 -1.07455E-269.3E-34J T^-1
-0.001158671 1.4E-11
-2.1274977230.000000025
-0.7617665620.000000012
-0.761786131 3.3E-09
20378947018s^-1 T^-1
32.43410150.0000028MHz T^-1
6.64466E-27 1.1E-33kg
4.001506179
5.6E-11u
5.97192E-101E-16J
3727.379170.00032MeV
7294.2995360.0000032
3.972599689 5.2E-10
0.004001506 5.6E-14kg mol^-1
6.02214E+231E+17mol^-1
1.66054E-27
2.8E-34kg
1.49242E-10
2.6E-17J
931.4940430.00008MeV
96485.33830.0083 C mol^-1 96485.3360.016C_90 mol^-1
3.99031E-10 2.7E-18J s mol^-1 0.1196265668E-10J m mol^-1 8.3144720.000015J mol^-1 K^-1 1.38065E-23 2.4E-29J K^-1
8.61734E-05 1.5E-10eV K^-1 2083664400036000Hz K^-1
69.503560.00012m^-1 K^-1
0.022*******.000000039m^3 mol^-1 2.68678E+25 4.7E+19m^-3
0.022*******.00000004m^3 mol^-1
-1.15170470.0000044
-1.16486770.0000044
5.6704E-084E-13W m^-2 K^-4 3.74177E-16
6.4E-23W m^2
1.19104E-162E-23W m^2 sr^-1
0.0143877520.000000025m K
0.002897769 5.1E-09m K
0.012(exact)kg mol^-1
0.001(exact)kg mol^-1
4.83598E+14(exact)Hz V^-1 25812.807(exact)ohm
101325(exact)Pa
9.80665(exact)m s^-2
1.00208E-13
2.9E-20m
1.0021E-13 5.3E-20m
1.00002E-109E-17m
5.43102E-102E-17m
1.92016E-107E-18m
1.20588E-05
2.4E-12m^3 mol^-1 1.60218E-19 1.4E-26J
1.66054E-27
2.8E-34kg 299792458(exact)m s^-1
1.05457E-34 1.8E-41J s
6.58212E-16 5.6E-23eV s
9.10938E-31 1.6E-37kg
8.1871E-14 1.4E-20J
0.5109989180.000000044MeV
2.73092E-22 4.7E-29kg m s^-1 0.5109989180.000000044MeV/c
3.86159E-13 2.6E-21m
1.28809E-218.6E-30s
1.60218E-19 1.4E-26C
9.10938E-31 1.6E-37kg
1.05457E-34 1.8E-41J s
5.29177E-11 1.8E-19m
4.35974E-187.5E-25J
2.41888E-17 1.6E-28s
8.23872E-08 1.4E-14N
2187691.2630.0073m s^-1
1.99285E-24 3.4E-31kg m s^-1
0.006623618 5.7E-10A
1.0812E+1293000 C m^-3
27.21138450.0000023V
5.14221E+1144000V m^-1
9.71736E+218.3E+14V m^-2
8.47835E-307.3E-37 C m
4.48655E-40 3.9E-47 C m^2
1.64878E-41 1.6E-49C^2 m^2 J^-1 3.20636E-53
2.8E-60C^3 m^3 J^-2
6.23538E-65 1.1E-71C^4 m^4 J^-3 235051.7420.02T
1.8548E-23 1.6E-30J T^-1
7.89104E-29 1.3E-36J T^-2
1.11265E-10(exact) F m^-1
1.11265E-17(exact)kg
5.03412E+248.6E+17m^-1
1.50919E+33
2.6E+26Hz
7.24296E+22 1.3E+17K
6.24151E+18 5.3E+11eV 67005361001100u
2.29371E+1739000000000E_h
8.98755E+16(exact)J
4.52444E+417.7E+34m^-1
1.35639E+50
2.3E+43Hz
6.50965E+39 1.1E+34K
5.60959E+35 4.8E+28eV
6.02214E+261E+20u
2.06149E+34
3.5E+27E_h
1.98645E-25 3.4E-32J
2.21022E-42
3.8E-49kg
299792458(exact)Hz
0.0143877520.000000025K
1.23984E-06 1.1E-13eV
1.33103E-158.9E-24u
4.55634E-083E-19E_h
6.62607E-34 1.1E-40J
7.3725E-51 1.3E-57kg
3.33564E-09(exact)m^-1
4.79924E-118.4E-17K
4.13567E-15 3.5E-22eV
4.43982E-243E-32u
1.51983E-161E-27E_h
1.38065E-23
2.4E-29J
1.53618E-40
2.7E-46kg
69.503560.00012m^-1
2083664400036000Hz
8.61734E-05 1.5E-10eV
9.2511E-14 1.6E-19u
3.16682E-06 5.5E-12E_h
1.60218E-19 1.4E-26J
1.78266E-36 1.5E-43kg
806554.4450.069m^-1
2.41799E+1421000000Hz
11604.5050.02K
1.07354E-099.2E-17u
0.036749325 3.1E-09E_h
1.49242E-10
2.6E-17J
1.66054E-27
2.8E-34kg
7.51301E+145000000m^-1
2.25234E+23 1.5E+15Hz
1.08095E+1319000000K
93149404380eV
34231776.860.23E_h
4.35974E-187.5E-25J
4.85087E-358.3E-42kg
21947463.140.00015m^-1
6.57968E+1544000Hz
315774.650.55K
27.21138450.0000023eV
2.92126E-08 1.9E-16u
of the Fundamental Physical Constants: 2002, published in Rev.