From: physics.nist.gov/constants Fundamental Physical Constants — Complete Listing Relative std. Quantity Symbol Value Unit uncert. u r UNIVERSAL speed of light in vacuum c;c 0 299 792 458 m s ?1 (exact) magnetic constant 0 4 10 ?7 NA ?2 D12:566 370614::: 10 ?7 NA ?2 (exact) electric constant 1/ 0 c 2 " 0 8:854 187 817::: 10 ?12 Fm ?1 (exact) characteristic impedance of vacuum p 0 = 0 D 0 cZ 0 376:730 313 461::: Omega1 (exact) Newtonian constant of gravitation G 6:673.10/ 10 ?11 m 3 kg ?1 s ?2 1:5 10 ?3 G= c 6:707.10/ 10 ?39 .GeV=c 2 / ?2 1:5 10 ?3 Planck constant h 6:626 068 76.52/ 10 ?34 Js 7:8 10 ?8 in eV s 4:135 667 27.16/ 10 ?15 eV s 3:9 10 ?8 h=2 1:054 571 596.82/ 10 ?34 Js 7:8 10 ?8 in eV s 6:582 118 89.26/ 10 ?16 eV s 3:9 10 ?8 Planck mass . c=G/ 1=2 m P 2:1767.16/ 10 ?8 kg 7:5 10 ?4 Planck length =m P cD. G=c 3 / 1=2 l P 1:6160.12/ 10 ?35 m7:5 10 ?4 Planck time l P =cD. G=c 5 / 1=2 t P 5:3906.40/ 10 ?44 s7:5 10 ?4 ELECTROMAGNETIC elementary charge e 1:602 176 462.63/ 10 ?19 C3:9 10 ?8 e=h 2:417 989 491.95/ 10 14 AJ ?1 3:9 10 ?8 magnetic flux quantum h=2e 8 0 2:067 833 636.81/ 10 ?15 Wb 3:9 10 ?8 conductance quantum 2e 2 =hG 0 7:748 091 696.28/ 10 ?5 S3:7 10 ?9 inverse of conductance quantum G ?1 0 12 906:403 786.47/Omega1 3:7 10 ?9 Josephson constant a 2e=hK J 483 597:898.19/ 10 9 Hz V ?1 3:9 10 ?8 von Klitzing constant b h=e 2 D 0 c=2 R K 25 812:807 572.95/Omega1 3:7 10 ?9 Bohr magneton e =2m e B 927:400 899.37/ 10 ?26 JT ?1 4:0 10 ?8 in eV T ?1 5:788 381 749.43/ 10 ?5 eV T ?1 7:3 10 ?9 B =h 13:996 246 24.56/ 10 9 Hz T ?1 4:0 10 ?8 B =hc 46:686 4521.19/ m ?1 T ?1 4:0 10 ?8 B =k 0:671 7131.12/ KT ?1 1:7 10 ?6 nuclear magneton e =2m p N 5:050 783 17.20/ 10 ?27 JT ?1 4:0 10 ?8 in eV T ?1 3:152 451 238.24/ 10 ?8 eV T ?1 7:6 10 ?9 N =h 7:622 593 96.31/ MHz T ?1 4:0 10 ?8 N =hc 2:542 623 66.10/ 10 ?2 m ?1 T ?1 4:0 10 ?8 N =k 3:658 2638.64/ 10 ?4 KT ?1 1:7 10 ?6 ATOMIC AND NUCLEAR General fine-structure constant e 2 =4 0 c 7:297 352533.27/ 10 ?3 3:7 10 ?9 inverse fine-structure constant ?1 137:035 999 76.50/ 3:7 10 ?9 Page 1 Source: Peter J. Mohr and Barry N. Taylor, CODATA Recommended Values of the Fundamental Physical Constants: 1998, Journal of Physical and Chemical Reference Data, Vol. 28, No. 6, 1999 and Reviews of Modern Physics, Vol. 72, No. 2, 2000. From: physics.nist.gov/constants Fundamental Physical Constants — Complete Listing Relative std. Quantity Symbol Value Unit uncert. u r Rydberg constant 2 m e c=2hR 1 10 973 731:568 549.83/ m ?1 7:6 10 ?12 R 1 c 3:289 841 960368.25/ 10 15 Hz 7:6 10 ?12 R 1 hc 2:179 871 90.17/ 10 ?18 J7:8 10 ?8 R 1 hc in eV 13:605 691 72.53/ eV 3:9 10 ?8 Bohr radius =4 R 1 D4 0 2 =m e e 2 a 0 0:529 177 2083.19/ 10 ?10 m3:7 10 ?9 Hartree energy e 2 =4 " 0 a 0 D2R 1 hc D 2 m e c 2 E h 4:359 743 81.34/ 10 ?18 J7:8 10 ?8 in eV 27:211 3834.11/ eV 3:9 10 ?8 quantum of circulation h=2m e 3:636 947 516.27/ 10 ?4 m 2 s ?1 7:3 10 ?9 h=m e 7:273 895 032.53/ 10 ?4 m 2 s ?1 7:3 10 ?9 Electroweak Fermi coupling constant c G F =. c/ 3 1:166 39.1/ 10 ?5 GeV ?2 8:6 10 ?6 weak mixing angle d W (on-shell scheme) sin 2 W Ds 2 W 1?.m W =m Z / 2 sin 2 W 0:2224.19/ 8:7 10 ?3 Electron, e ? electron mass m e 9:109 381 88.72/ 10 ?31 kg 7:9 10 ?8 in u, m e D A r .e/ u (electron relative atomic mass times u) 5:485 799 110.12/ 10 ?4 u2:1 10 ?9 energy equivalent m e c 2 8:187 10414.64/ 10 ?14 J7:9 10 ?8 in MeV 0:510 998 902.21/ MeV 4:0 10 ?8 electron-muon mass ratio m e =m m 4:836 332 10.15/ 10 ?3 3:0 10 ?8 electron-tau mass ratio m e =m t 2:875 55.47/ 10 ?4 1:6 10 ?4 electron-proton mass ratio m e =m p 5:446 170 232.12/ 10 ?4 2:1 10 ?9 electron-neutron mass ratio m e =m n 5:438 673 462.12/ 10 ?4 2:2 10 ?9 electron-deuteron mass ratio m e =m d 2:724 437 1170.58/ 10 ?4 2:1 10 ?9 electron to alpha particle mass ratio m e =m 1:370 933 5611.29/ 10 ?4 2:1 10 ?9 electron charge to mass quotient ?e=m e ?1:758 820 174.71/ 10 11 Ckg ?1 4:0 10 ?8 electron molar mass N A m e M.e/;M e 5:485 799 110.12/ 10 ?7 kg mol ?1 2:1 10 ?9 Compton wavelength h=m e c C 2:426 310 215.18/ 10 ?12 m7:3 10 ?9 C =2 D a 0 D 2 =4 R 1 C 386:159 2642.28/ 10 ?15 :3 10 ?9 classical electron radius 2 a 0 r e 2:817 940 285.31/ 10 ?15 m1:1 10 ?8 Thomson cross section (8 =3/r 2 e e 0:665 245 854.15/ 10 ?28 m 2 2:2 10 ?8 electron magnetic moment e ?928:476 362.37/ 10 ?26 JT ?1 4:0 10 ?8 to Bohr magneton ratio e = B ?1:001 159 6521869.41/ 4:1 10 ?12 to nuclear magneton ratio e = N ?1 838:281 9660.39/ 2:1 10 ?9 electron magnetic moment anomalyj e j= B ?1 a e 1:159 652 1869.41/ 10 ?3 3:5 10 ?9 electron g-factor?2.1Ca e / g e ?2:002 319 3043737.82/ 4:1 10 ?12 electron-muon magnetic moment ratio e = m 206:766 9720.63/ 3:0 10 ?8 Page 2 Source: Peter J. Mohr and Barry N. Taylor, CODATA Recommended Values of the Fundamental Physical Constants: 1998, Journal of Physical and Chemical Reference Data, Vol. 28, No. 6, 1999 and Reviews of Modern Physics, Vol. 72, No. 2, 2000. From: physics.nist.gov/constants Fundamental Physical Constants — Complete Listing Relative std. Quantity Symbol Value Unit uncert. u r electron-proton magnetic moment ratio e = p ?658:2106875.66/ 1:0 10 ?8 electron to shielded proton magnetic moment ratio e = 0 p ?658:227 5954.71/ 1:1 10 ?8 (H 2 O, sphere, 25 C) electron-neutron magnetic moment ratio e = n 960:920 50.23/ 2:4 10 ?7 electron-deuteron magnetic moment ratio e = d ?2 143:923 498.23/ 1:1 10 ?8 electron to shielded helion e magnetic moment ratio e = 0 h 864:058 255.10/ 1:2 10 ?8 (gas, sphere, 25 C) electron gyromagnetic ratio 2j e j= γ e 1:760 859 794.71/ 10 11 s ?1 T ?1 4:0 10 ?8 γ e =2 28 024:9540.11/ MHz T ?1 4:0 10 ?8 Muon, ? muon mass m m 1:883 531 09.16/ 10 ?28 kg 8:4 10 ?8 in u, m m D A r .m/ u (muon relative atomic mass times u) 0:113 428 9168.34/ u3:0 10 ?8 energy equivalent m m c 2 1:692 833 32.14/ 10 ?11 J8:4 10 ?8 in MeV 105:658 3568.52/ MeV 4:9 10 ?8 muon-electron mass ratio m m =m e 206:768 2657.63/ 3:0 10 ?8 muon-tau mass ratio m m =m t 5:945 72.97/ 10 ?2 1:6 10 ?4 muon-proton mass ratio m m =m p 0:112 609 5173.34/ 3:0 10 ?8 muon-neutron mass ratio m m =m n 0:112 454 5079.34/ 3:0 10 ?8 muon molar mass N A m m M.m/;M m 0:113 428 9168.34/ 10 ?3 kg mol ?1 3:0 10 ?8 muon Compton wavelength h=m m c C;m 11:734 441 97.35/ 10 ?15 m2:9 10 ?8 C;m =2 C;m 1:867 594444.55/ 10 ?15 :9 10 ?8 muon magnetic moment m ?4:490 448 13.22/ 10 ?26 JT ?1 4:9 10 ?8 to Bohr magneton ratio m = B ?4:841 97085.15/ 10 ?3 3:0 10 ?8 to nuclear magneton ratio m = N ?8:890 597 70.27/ 3:0 10 ?8 muon magnetic moment anomaly j m j=.e =2m m /?1 a m 1:165 916 02.64/ 10 ?3 5:5 10 ?7 muon g-factor?2.1Ca m ) g m ?2:002 331 8320.13/ 6:4 10 ?10 muon-proton magnetic moment ratio m = p ?3:183 345 39.10/ 3:2 10 ?8 Tau, ? tau mass f m t 3:167 88.52/ 10 ?27 kg 1:6 10 ?4 in u, m t D A r .t/ u(tau relative atomic mass times u) 1:907 74.31/ u1:6 10 ?4 energy equivalent m t c 2 2:847 15.46/ 10 ?10 J1:6 10 ?4 in MeV 1 777:05.29/ MeV 1:6 10 ?4 Page 3 Source: Peter J. Mohr and Barry N. Taylor, CODATA Recommended Values of the Fundamental Physical Constants: 1998, Journal of Physical and Chemical Reference Data, Vol. 28, No. 6, 1999 and Reviews of Modern Physics, Vol. 72, No. 2, 2000. From: physics.nist.gov/constants Fundamental Physical Constants — Complete Listing Relative std. Quantity Symbol Value Unit uncert. u r tau-electron mass ratio m t =m e 3 477:60.57/ 1:6 10 ?4 tau-muon mass ratio m t =m m 16:8188.27/ 1:6 10 ?4 tau-proton mass ratio m t =m p 1:893 96.31/ 1:6 10 ?4 tau-neutron mass ratio m t =m n 1:891 35.31/ 1:6 10 ?4 tau molar mass N A m t M.t/;M t 1:907 74.31/ 10 ?3 kg mol ?1 1:6 10 ?4 tau Compton wavelength h=m t c C;t 0:697 70.11/ 10 ?15 m1:6 10 ?4 C;t =2 C;t 0:111 042.18/ 10 ?15 :6 10 ?4 Proton, p proton mass m p 1:672 621 58.13/ 10 ?27 kg 7:9 10 ?8 in u, m p D A r .p/ u (proton relative atomic mass times u) 1:007 276 466 88.13/ u1:3 10 ?10 energy equivalent m p c 2 1:503 277 31.12/ 10 ?10 J7:9 10 ?8 in MeV 938:271 998.38/ MeV 4:0 10 ?8 proton-electron mass ratio m p =m e 1 836:152 6675.39/ 2:1 10 ?9 proton-muon mass ratio m p =m m 8:880 244 08.27/ 3:0 10 ?8 proton-tau mass ratio m p =m t 0:527 994.86/ 1:6 10 ?4 proton-neutron mass ratio m p =m n 0:998 623 478 55.58/ 5:8 10 ?10 proton charge to mass quotient e=m p 9:578 834 08.38/ 10 7 Ckg ?1 4:0 10 ?8 proton molar mass N A m p M(p), M p 1:007 276 466 88.13/ 10 ?3 kg mol ?1 1:3 10 ?10 proton Compton wavelength h=m p c C;p 1:321 409 847.10/ 10 ?15 m7:6 10 ?9 C;p =2 C;p 0:210 308 9089.16/ 10 ?15 :6 10 ?9 proton magnetic moment p 1:410 606 633.58/ 10 ?26 JT ?1 4:1 10 ?8 to Bohr magneton ratio p = B 1:521 032 203.15/ 10 ?3 1:0 10 ?8 to nuclear magneton ratio p = N 2:792 847 337.29/ 1:0 10 ?8 proton g-factor 2 p = N g p 5:585 694 675.57/ 1:0 10 ?8 proton-neutron magnetic moment ratio p = n ?1:459 898 05.34/ 2:4 10 ?7 shielded proton magnetic moment 0 p 1:410 570 399.59/ 10 ?26 JT ?1 4:2 10 ?8 (H 2 O, sphere, 25 C) to Bohr magneton ratio 0 p = B 1:520 993 132.16/ 10 ?3 1:1 10 ?8 to nuclear magneton ratio 0 p = N 2:792 775 597.31/ 1:1 10 ?8 proton magnetic shielding correction 1? 0 p = p 0 p 25:687.15/ 10 ?6 5:7 10 ?4 (H 2 O, sphere, 25 C) proton gyromagnetic ratio 2 p = γ p 2:675 222 12.11/ 10 8 s ?1 T ?1 4:1 10 ?8 γ p =2 42:577 4825.18/ MHz T ?1 4:1 10 ?8 shielded proton gyromagnetic ratio 2 0 p = γ 0 p 2:675 153 41.11/ 10 8 s ?1 T ?1 4:2 10 ?8 (H 2 O, sphere, 25 C) γ 0 p =2 42:576 3888.18/ MHz T ?1 4:2 10 ?8 Neutron, n Page 4 Source: Peter J. Mohr and Barry N. Taylor, CODATA Recommended Values of the Fundamental Physical Constants: 1998, Journal of Physical and Chemical Reference Data, Vol. 28, No. 6, 1999 and Reviews of Modern Physics, Vol. 72, No. 2, 2000. From: physics.nist.gov/constants Fundamental Physical Constants — Complete Listing Relative std. Quantity Symbol Value Unit uncert. u r neutron mass m n 1:674 927 16.13/ 10 ?27 kg 7:9 10 ?8 in u, m n D A r .n/ u (neutron relative atomic mass times u) 1:008 664915 78.55/ u5:4 10 ?10 energy equivalent m n c 2 1:505 349 46.12/ 10 ?10 J7:9 10 ?8 in MeV 939:565 330.38/ MeV 4:0 10 ?8 neutron-electron mass ratio m n =m e 1 838:683 6550.40/ 2:2 10 ?9 neutron-muon mass ratio m n =m m 8:892 484 78.27/ 3:0 10 ?8 neutron-tau mass ratio m n =m t 0:528 722.86/ 1:6 10 ?4 neutron-proton mass ratio m n =m p 1:001 378 418 87.58/ 5:8 10 ?10 neutron molar mass N A m n M.n/;M n 1:008 664915 78.55/ 10 ?3 kg mol ?1 5:4 10 ?10 neutron Compton wavelength h=m n c C;n 1:319 590 898.10/ 10 ?15 m7:6 10 ?9 C;n =2 C;n 0:210 019 4142.16/ 10 ?15 :6 10 ?9 neutron magnetic moment n ?0:966 236 40.23/ 10 ?26 JT ?1 2:4 10 ?7 to Bohr magneton ratio n = B ?1:041 875 63.25/ 10 ?3 2:4 10 ?7 to nuclear magneton ratio n = N ?1:913 04272.45/ 2:4 10 ?7 neutron g-factor 2 n = N g n ?3:826 085 45.90/ 2:4 10 ?7 neutron-electron magnetic moment ratio n = e 1:040 668 82.25/ 10 ?3 2:4 10 ?7 neutron-proton magnetic moment ratio n = p ?0:684 979 34.16/ 2:4 10 ?7 neutron to shielded proton magnetic moment ratio n = 0 p ?0:684 996 94.16/ 2:4 10 ?7 (H 2 O, sphere, 25 C) neutron gyromagnetic ratio 2j n j= γ n 1:832 471 88.44/ 10 8 s ?1 T ?1 2:4 10 ?7 γ n =2 29:164 6958.70/ MHz T ?1 2:4 10 ?7 Deuteron, d deuteron mass m d 3:343 583 09.26/ 10 ?27 kg 7:9 10 ?8 in u, m d D A r .d/ u (deuteron relative atomic mass times u) 2:013 553 21271.35/ u1:7 10 ?10 energy equivalent m d c 2 3:005 062 62.24/ 10 ?10 J7:9 10 ?8 in MeV 1 875:612 762.75/ MeV 4:0 10 ?8 deuteron-electron mass ratio m d =m e 3 670:482 9550.78/ 2:1 10 ?9 deuteron-proton mass ratio m d =m p 1:999 007 50083.41/ 2:0 10 ?10 deuteron molar mass N A m d M.d/;M d 2:013 553 21271.35/ 10 ?3 kg mol ?1 1:7 10 ?10 deuteron magnetic moment d 0:433 073 457.18/ 10 ?26 JT ?1 4:2 10 ?8 to Bohr magneton ratio d = B 0:466 975 4556.50/ 10 ?3 1:1 10 ?8 to nuclear magneton ratio d = N 0:857 438 2284.94/ 1:1 10 ?8 deuteron-electron magnetic moment ratio d = e ?4:664 345 537.50/ 10 ?4 1:1 10 ?8 deuteron-proton magnetic moment ratio d = p 0:307 012 2083.45/ 1:5 10 ?8 Page 5 Source: Peter J. Mohr and Barry N. Taylor, CODATA Recommended Values of the Fundamental Physical Constants: 1998, Journal of Physical and Chemical Reference Data, Vol. 28, No. 6, 1999 and Reviews of Modern Physics, Vol. 72, No. 2, 2000. From: physics.nist.gov/constants Fundamental Physical Constants — Complete Listing Relative std. Quantity Symbol Value Unit uncert. u r deuteron-neutron magnetic moment ratio d = n ?0:448 206 52.11/ 2:4 10 ?7 Helion, h helion mass e m h 5:006 411 74.39/ 10 ?27 kg 7:9 10 ?8 in u, m h D A r .h/ u (helion relative atomic mass times u) 3:014 932 234 69.86/ u2:8 10 ?10 energy equivalent m h c 2 4:499 538 48.35/ 10 ?10 J7:9 10 ?8 in MeV 2 808:391 32.11/ MeV 4:0 10 ?8 helion-electron mass ratio m h =m e 5 495:885 238.12/ 2:1 10 ?9 helion-proton mass ratio m h =m p 2:993 152 658 50.93/ 3:1 10 ?10 helion molar mass N A m h M.h/;M h 3:014 932 234 69.86/ 10 ?3 kg mol ?1 2:8 10 ?10 shielded helion magnetic moment 0 h ?1:074 552 967.45/ 10 ?26 JT ?1 4:2 10 ?8 (gas, sphere, 25 C) to Bohr magneton ratio 0 h = B ?1:158 671 474.14/ 10 ?3 1:2 10 ?8 to nuclear magneton ratio 0 h = N ?2:127 497 718.25/ 1:2 10 ?8 shielded helion to proton magnetic moment ratio 0 h = p ?0:761 766 563.12/ 1:5 10 ?8 (gas, sphere, 25 C) shielded helion to shielded proton magnetic moment ratio 0 h = 0 p ?0:761 786 1313.33/ 4:3 10 ?9 (gas/H 2 O, spheres, 25 C) shielded helion gyromagnetic ratio 2j 0 h j= γ 0 h 2:037 894 764.85/ 10 8 s ?1 T ?1 4:2 10 ?8 (gas, sphere, 25 C) γ 0 h =2 32:434 1025.14/ MHz T ?1 4:2 10 ?8 Alpha particle, alpha particle mass m 6:644 655 98.52/ 10 ?27 kg 7:9 10 ?8 in u, m D A r . / u (alpha particle relative atomic mass times u) 4:001 506 1747.10/ u2:5 10 ?10 energy equivalent m c 2 5:971 918 97.47/ 10 ?10 J7:9 10 ?8 in MeV 3 727:379 04.15/ MeV 4:0 10 ?8 alpha particle to electron mass ratio m =m e 7 294:299 508.16/ 2:1 10 ?9 alpha particle to proton mass ratio m =m p 3:972 599 6846.11/ 2:8 10 ?10 alpha particle molar mass N A m M. /;M 4:001 506 1747.10/ 10 ?3 kg mol ?1 2:5 10 ?10 PHYSICO-CHEMICAL Avogadro constant N A ;L 6:022 141 99.47/ 10 23 mol ?1 7:9 10 ?8 atomic mass constant m u D 1 12 m. 12 C/D1u m u 1:660 538 73.13/ 10 ?27 kg 7:9 10 ?8 D10 ?3 kg mol ?1 =N A energy equivalent m u c 2 1:492 417 78.12/ 10 ?10 J7:9 10 ?8 in MeV 931:494 013.37/ MeV 4:0 10 ?8 Faraday constant g N A eF96 485:3415.39/ Cmol ?1 4:0 10 ?8 Page 6 Source: Peter J. Mohr and Barry N. Taylor, CODATA Recommended Values of the Fundamental Physical Constants: 1998, Journal of Physical and Chemical Reference Data, Vol. 28, No. 6, 1999 and Reviews of Modern Physics, Vol. 72, No. 2, 2000. From: physics.nist.gov/constants Fundamental Physical Constants — Complete Listing Relative std. Quantity Symbol Value Unit uncert. u r molar Planck constant N A h 3:990 312 689.30/ 10 ?10 Jsmol ?1 7:6 10 ?9 N A hc 0:119 626 56492.91/ Jmmol ?1 7:6 10 ?9 molar gas constant R 8:314 472.15/ Jmol ?1 K ?1 1:7 10 ?6 Boltzmann constant R=N A k 1:380 6503.24/ 10 ?23 JK ?1 1:7 10 ?6 in eV K ?1 8:617 342.15/ 10 ?5 eV K ?1 1:7 10 ?6 k=h 2:083 6644.36/ 10 10 Hz K ?1 1:7 10 ?6 k=hc 69:503 56.12/ m ?1 K ?1 1:7 10 ?6 molar volume of ideal gas RT=p T D273:15 K; pD101:325 kPa V m 22:413 996.39/ 10 ?3 m 3 mol ?1 1:7 10 ?6 Loschmidt constant N A =V m n 0 2:686 7775.47/ 10 25 m ?3 1:7 10 ?6 T D273:15 K; pD100 kPa V m 22:710 981.40/ 10 ?3 m 3 mol ?1 1:7 10 ?6 Sackur-Tetrode constant (absolute entropy constant) h 5 2 Cln[.2 m u kT 1 =h 2 / 3=2 kT 1 =p 0 ] T 1 D1K; p 0 D 100 kPa S 0 =R ?1:151 7048.44/ 3:8 10 ?6 T 1 D1K; p 0 D 101:325 kPa ?1:164 8678.44/ 3:7 10 ?6 Stefan-Boltzmann constant ( 2 =60/k 4 = 3 c 2 5:670 400.40/ 10 ?8 Wm ?2 K ?4 7:0 10 ?6 first radiation constant 2 hc 2 c 1 3:741 771 07.29/ 10 ?16 Wm 2 7:8 10 ?8 first radiation constant for spectral radiance 2hc 2 c 1L 1:191 042 722.93/ 10 ?16 Wm 2 sr ?1 7:8 10 ?8 second radiation constant hc=kc 2 1:438 7752.25/ 10 ?2 mK 1:7 10 ?6 Wien displacement law constant bD max T Dc 2 =4:965 114 231::: b 2:897 7686.51/ 10 ?3 mK 1:7 10 ?6 a See the “Adopted values” table for the conventional value adopted internationally for realizing representations of the volt using the Joseph- son effect. b See the “Adopted values” table for the conventional value adopted internationally for realizing representations of the ohm using the quantum Hall effect. c Value recommended by the Particle Data Group, Caso et al., Eur. Phys. J. C 3(1-4), 1-794 (1998). d Based on the ratio of the masses of the W and Z bosons m W =m Z recommended by the Particle Data Group (Caso et al., 1998). The value for sin 2 W they recommend, which is based on a particular variant of the modified minimal subtraction .MS/scheme, is sin 2 O W .M Z /D0:231 24.24/. e The helion, symbol h, is the nucleus of the 3 He atom. f This and all other values involving m are based on the value of m c 2 in MeV recommended by the Particle Data Group, Caso et al., Eur. Phys. J. C 3(1-4), 1-794 (1998), but with a standard uncertainty of 0:29 MeV rather than the quoted uncertainty of?0:26 MeV,C0:29 MeV. g The numerical value of F to be used in coulometric chemical measurements is 96 485:3432.76/[7:9 10 ?8 ] when the relevant current is measured in terms of representations of the volt and ohm based on the Josephson and quantum Hall effects and the internationally adopted conventional values of the Josephson and von Klitzing constants K J?90 and R K?90 given in the “Adopted values” table. h The entropy of an ideal monoatomic gas of relative atomic mass A r is given by SDS 0 C 3 2 R ln A r ?R ln.p=p 0 /C 5 2 R ln.T=K/: Page 7 Source: Peter J. Mohr and Barry N. Taylor, CODATA Recommended Values of the Fundamental Physical Constants: 1998, Journal of Physical and Chemical Reference Data, Vol. 28, No. 6, 1999 and Reviews of Modern Physics, Vol. 72, No. 2, 2000.