astronomical constants

Physical Constants Name Common c.g.s. m.k.s. units other Newton’s Constant (GN ) 6.67 × 10 -8 cm 3 g -1 s -2 6.674 × 10 -8 6.674 × 10 -11 L 3 M -1 T -2 Natural Unit Speed of Light (c) 3 × 10 10 cm/s 2.998 × 10 10 2.998 × 10 8 LT -1 Natural Unit Planck’s Constant (h) 4 × 10 -15 eV·s 6.626 × 10 -27 6.626 × 10 -34 L 2 MT -1 Natural Unit, 4.136 × 10 -15 Planck’s Constant (~) 7 × 10 -16 eV·s 1.055 × 10 -27 1.055 × 10 -34 L 2 MT -1 ~ ≡ h/2π,6.582 × 10 -15 Boltzmann Constant (kB) 9 × 10 -5 eV/K 1.381 × 10 -16 1.381 × 10 -23 L 2 MT -2 K -1 Natural Unit, 8.617 × 10 -5 eV/K Stefan-Boltzmann Constant (σB) 6 × 10 -5 erg cm -2 s -1 K -4 5.670 × 10 -5 5.670 × 10 -8 MT -3 K -4 π 2 k 4 60~ 3 c 2 , ac 4 Avogadro’s Number (NA) 6 × 10 23 mol -1 6.022 × 10 23 - - - Molar Gas Constant (R) 8 × 10 7 erg K -1 mole -1 8.314 × 10 7 8.314 ML 2 T -2 K -1 (mole -1 ) R=NAkB =5.189 × 10 19 eV K -1 mole -1 Fine Structure Constant (α) 1/137 7.297 × 10 -3 - - 1 4π 0 SI e 2 ~c Thomson Cross-Section (σT) 7 × 10 -25 cm 2 6.652 × 10 -25 6.652 × 10 -29 L 2 σT ≡ 8π 3 r 2 e = 8π 3 e 2 mec 2 Electron Mass (me) 9 × 10 -28 g 9.109 × 10 -28 9.109 × 10 -31 M 511 keV; 1/2000 u Proton Mass (mp) 2 × 10 -24 g 1.673 × 10 -24 1.673 × 10 -27 M 938 MeV; 1.01 u Neutron Mass (mn) 2 × 10 -24 g 1.675 × 10 -24 1.675 × 10 -27 M 940 MeV; 1.01 u Elementary Charge (e) 5 × 10 -10 statC 4.803 × 10 -10 1.602 × 10 -19 Q qcgs = qSI / √ 4πε0 Bohr Radius (a0) 5 × 10 -9 cm 5.2918 × 10 -9 5.2918 × 10 -11 L (4π0)SI ~ 2 mee 2 Permittivity of Free Space (ε0) 9 × 10 -12 F·m 1 8.854 × 10 -12 M -1 L -4 T 2 Q 2 ε0 ≡ (μ0c 2 ) -1 Permeability of Free Space (μ0) 4π × 10 -7 1 4π × 10 -7 ML 2 Q -2 Bcgs = BSI p μ0/4π Coulomb Constant (ke) 10 10 Nm 2 C -2 1 8.988 × 10 9 ML 4 T -2 Q -2 ke ≡ 1 4πε 0 Bohr Magneton (μB) 9 × 10 -12 F·m 1 8.854 × 10 -12 M -1 L -4 T 2 Q 2 ε0 ≡ (μ0c 2 ) -1 Hubble Constant (H0) 70 (km/s) Mpc -1 2 × 10 -18 - T -1 - Baryon Density (Ω b ) 0.05 0.045 - - Ω b ≡ ρ b /ρc Dark Matter Density (Ωc) 0.22 0.22 - - Ω b ≡ ρc/ρc Dark Energy Density (ΩΛ) 0.73 0.734 - - Ω b ≡ ρΛ/ρc Critical Density (ρc) 10 -29 g cm -3 7 × 10 -30 7 × 10 -27 ML -3 1 p/cm 3 , ρc ≡ 3H 2 8πG N Planck Length (lP ) 10 -35 m 1.616 × 10 -37 1.616 × 10 -35 L q ~ G N c 3 Planck Mass (mP ) 10 -8 kg 2.177 × 10 -5 2.177 × 10 -8 M q ~ c G N Planck Time (tP ) 10 -45 s 5.391 × 10 -44 - T q ~ G N c 5 Planck Charge (qP ) 10 -18 C 5.623 × 10 -9 1.876 × 10 -18 Q √ 4πε0~c Planck Temperature (TP ) 10 32 K 1.417 × 10 32 - K q ~c 5 G N k 2 B Distance (‘L’); Mass (‘M’); Time (‘T’); Temperature (‘K’); Charge (‘Q’)

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Physical Constants

Name Common c.g.s. m.k.s. units other

Newton’s Constant (GN ) 6.67× 10−8 cm3 g−1 s−2 6.674× 10−8 6.674× 10−11 L3 M−1 T−2 Natural Unit

Speed of Light (c) 3× 1010 cm/s 2.998× 1010 2.998× 108 L T−1 Natural Unit

Planck’s Constant (h) 4× 10−15 eV·s 6.626× 10−27 6.626× 10−34 L2 M T−1 Natural Unit, 4.136× 10−15

Planck’s Constant (~) 7× 10−16 eV·s 1.055× 10−27 1.055× 10−34 L2 M T−1 ~ ≡ h/2π, 6.582× 10−15

Boltzmann Constant (kB) 9× 10−5 eV/K 1.381× 10−16 1.381× 10−23 L2 M T−2 K−1 Natural Unit, 8.617× 10−5 eV/K

Stefan-Boltzmann Constant (σB) 6× 10−5 erg cm−2 s−1 K−4 5.670× 10−5 5.670× 10−8 M T−3 K−4 π2k4

60~3c2 ,ac4

Avogadro’s Number (NA) 6× 1023 mol−1 6.022× 1023 - - -

Molar Gas Constant (R) 8× 107 erg K−1 mole−1 8.314× 107 8.314 M L2 T−2 K−1 (mole−1) R = NAkB = 5.189× 1019 eV K−1 mole−1

Fine Structure Constant (α) 1/137 7.297× 10−3 - -(

14πε0

)SI

Thomson Cross-Section (σT) 7× 10−25 cm2 6.652× 10−25 6.652× 10−29 L2 σT ≡ 8π3r2e = 8π

3e2

mec2

Electron Mass (me) 9× 10−28 g 9.109× 10−28 9.109× 10−31 M 511 keV; 1/2000 u

Proton Mass (mp) 2× 10−24 g 1.673× 10−24 1.673× 10−27 M 938 MeV; 1.01 u

Neutron Mass (mn) 2× 10−24 g 1.675× 10−24 1.675× 10−27 M 940 MeV; 1.01 u

Elementary Charge (e) 5× 10−10 statC 4.803× 10−10 1.602× 10−19 Q qcgs = qSI/√

4πε0

Bohr Radius (a0) 5× 10−9 cm 5.2918× 10−9 5.2918× 10−11 L (4πε0)SI~2

mee2

Permittivity of Free Space (ε0) 9× 10−12 F·m 1 8.854× 10−12 M−1 L−4 T2 Q2 ε0 ≡ (µ0c2)−1

Permeability of Free Space (µ0) 4π × 10−7 1 4π × 10−7 M L2 Q−2 Bcgs = BSI

√µ0/4π

Coulomb Constant (ke) 1010 N m2 C−2 1 8.988× 109 M L4 T−2 Q−2 ke ≡ 14πε0

Bohr Magneton (µB) 9× 10−12 F·m 1 8.854× 10−12 M−1 L−4 T2 Q2 ε0 ≡ (µ0c2)−1

Hubble Constant (H0) 70 (km/s) Mpc−1 2× 10−18 - T−1 -

Baryon Density (Ωb) 0.05 0.045 - - Ωb ≡ ρb/ρcDark Matter Density (Ωc) 0.22 0.22 - - Ωb ≡ ρc/ρcDark Energy Density (ΩΛ) 0.73 0.734 - - Ωb ≡ ρΛ/ρc

Critical Density (ρc) 10−29 g cm−3 7× 10−30 7× 10−27 M L−3 1 p/cm3, ρc ≡ 3H2

8πGN

Planck Length (lP ) 10−35 m 1.616× 10−37 1.616× 10−35 L√

~ GNc3

Planck Mass (mP ) 10−8 kg 2.177× 10−5 2.177× 10−8 M√

~ cGN

Planck Time (tP ) 10−45 s 5.391× 10−44 - T√

~ GNc5

Planck Charge (qP ) 10−18 C 5.623× 10−9 1.876× 10−18 Q√

4πε0~c

Planck Temperature (TP ) 1032 K 1.417× 1032 - K√

~c5GNk

Distance (‘L’); Mass (‘M’); Time (‘T’); Temperature (‘K’); Charge (‘Q’)

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