/* Filename physicalconstants.mac *************************************************************** * Definitions of Fundamental Physical Constants * * CODATA Recommended Values * * (Version .3 - current as of March 2002) * * * * Source, Peter J. Mohr and Barry N. Taylor, * * CODATA Recommended Values of the Fundamental * * Physical Constants, 1998 * * * * Website, physics.nist.gov/constants * * -------------------------- * * Programmed by Cliff Yapp * *************************************************************** Abbreviations, RSU: Relative Standard Uncertainty Variables with two percent signs, %%c, %%h, %%e Changes: .1 - first version uploaded .2 - converted to numerval usage, added units to value assignments, converted to E notation .3 - added RSU into definitions via qput =========================================================================*/ TTYOFF: NOLABELS, TRUE$ /*Universal Constants -------------------------------------------------------------------------*/ /*speed of light in vacuum*/ numerval(%%c, 299792458*m/s)$ numerval(%c_0, 299792458*m/s)$ /*magnetic constant*/ numerval(%u_0, 4*%PI*1E-7*N/(A^2))$ numerval(%mu_0, 4*%PI*1E-7*N/(A^2))$ /*electric constant*/ numerval(%e_0, 8.854187817E-12*F/m)$ numerval(%epsilon_0, 8.854187817E-12*F/m)$ /*characteristic impedance of vacuum*/ numerval(%Z_0, 376.730313461*Ohms)$ /*Newtonian constant of gravitation*/ numerval(%G, 6.673E-11*m^3/(kg*s^2))$ qput(%G, 1.5*10E-3, RSU)$ /*Planck constant*/ numerval(%%h, 6.62606876E-34*J*s)$ qput(%%h, 7.8*10E-8, RSU)$ /*Planck constant in eVs*/ numerval(%h_eV, 4.13566727E-15*eV*s)$ qput(%h_eV, 3.9*10E-8, RSU)$ /*Planck mass*/ numerval(%P_m, 2.1767E-8*kg)$ qput(%P_m, 7.5*10E-4, RSU)$ /*Planck length*/ numerval(%P_l, 1.6160E-35*m)$ qput(%P_l, 7.5*10E-4, RSU)$ /*Planck time*/ numerval(%P_t, 5.3906E-44*s)$ qput(%P_t, 7.5*10E-4, RSU)$ /*Electromagnetic Constants ------------------------------------------------------------------------*/ /*elementary charge*/ numerval(%%e, 1.602176462E-19*C)$ qput(%%e, 3.9*10E-8, RSU)$ /*magnetic flux quantum*/ numerval(%capitalphi_0, 2.067833636E-15*Wb)$ qput(%capitalphi_0, 3.9*10E-8, RSU)$ numerval(%mfq_0, 2.067833636E-15*Wb)$ qput(%mfq_0, 3.9*10E-8, RSU)$ /*conductance quantum*/ numerval(%G_0, 7.748091696E-5*S)$ qput(%G_0, 3.7*10E-9, RSU)$ /*Josephson constant*/ numerval(%K_J, 483597.898E9*Hz/V)$ qput(%K_J, 3.9*10E-8, RSU)$ /*von Klitzing constant*/ numerval(%R_K, 25812.807572*Ohms)$ qput(%R_K, 3.7*10E-9, RSU)$ /*Bohr magneton*/ numerval(%u_B, 927.400899E-26*J/T)$ qput(%u_B, 4.0*10E-8, RSU)$ /*Bohr magneton in eV T-1*/ numerval(%ueVT_B, 5.788381749E-5*eV/T)$ qput(%ueVT_B, 7.3*10E-9, RSU)$ /*nuclear magneton*/ numerval(%u_N, 5.05078317E-27*J/T)$ qput(%u_N, 4.0*10E-8, RSU)$ /*nuclear magneton in eV T-1*/ numerval(%ueVT_N, 3.152451238E-8*eV/T)$ qput(%ueVT_N, 7.6*10E-9, RSU)$ /*Atomic and Nuclear Constants*/ /*General -------------------------------------------------------------------------*/ /*fine-structure constant*/ numerval(%alpha, 7.297352533E-3)$ qput(%alpha, 3.7*10E-9, RSU)$ /*Rydberg constant*/ numerval(%Ry, 10973731.568549/m)$ qput(%Ry, 7.6*10E-12, RSU)$ numerval(%Ry_INF, 10973731.568549/m)$ qput(%Ry_INF, 7.6*10E-12, RSU)$ /*Bohr radius*/ numerval(%a_0, 0.5291772083E-10*m)$ qput(%a_0, 3.7*10E-9, RSU)$ /*Hartree energy*/ numerval(%E_h, 4.35974381E-18*J)$ qput(%E_h, 7.8*10E-8, RSU)$ /*Hartree energy in eV*/ numerval(%Eev_h, 27.2113834*eV)$ qput(%Eev_h, 3.9*10E-8, RSU)$ /*quantum of circulation h/(2me)*/ numerval(%qcir2, 3.636947516E-4*m^2/s)$ qput(%qcir2, 7.3*10E-9, RSU)$ /*quantum of circulation h/(me)*/ numerval(%qcir, 7.273895032E-4*m^2/s)$ qput(%qcir, 7.3*10E-9, RSU)$ /*Electroweak -------------------------------------------------------------------------*/ /*Fermi coupling constant*/ numerval(%Fcc, 1.16639E-5/GeV^2)$ qput(%Fcc, 8.6*10E-6, RSU)$ /*weak mixing angled W (on-shell scheme)*/ numerval(%wma_W, 0.2224)$ qput(%wma_W, 8.7*10E-3, RSU)$ /*Electron, e- -------------------------------------------------------------------------*/ /*electron mass*/ numerval(%m_e, 9.10938188E-31*kg)$ qput(%m_e, 7.9*10E-8, RSU)$ /*electron mass (electron relative atomic mass times u)*/ numerval(%m_e_u, 5.485799110E-4*u)$ qput(%m_e_u, 2.1*10E-9, RSU)$ /*electron mass - energy equivalent*/ numerval(%me_J, 8.18710414E-14*J)$ qput(%me_J, 7.9*10E-8, RSU)$ /*electron mass - energy equivalent in MeV*/ numerval(%me_MeV, 0.510998902*MeV)$ qput(%me_MeV, 4.0*10E-8, RSU)$ /*electron-muon mass ratio*/ numerval(%memu, 4.83633210E-3)$ qput(%memu, 3.0*10E-8, RSU)$ /*electron-tau mass ratio*/ numerval(%metau, 2.87555E-4)$ qput(%metau, 1.6*10E-4, RSU)$ /*electron-proton mass ratio*/ numerval(%memp, 5.446170232E-4)$ qput(%memp, 2.1*10E-9, RSU)$ /*electron-neutron mass ratio*/ numerval(%memn, 5.438673462E-4)$ qput(%memn, 2.2*10E-9, RSU)$ /*electron-deuteron mass ratio*/ numerval(%memd, 2.7244371170E-4)$ qput(%memd, 2.1*10E-9, RSU)$ /*electron to alpha particle mass ratio*/ numerval(%memalpha, 1.3709335611E-4)$ qput(%memalpha, 2.1*10E-9, RSU)$ /*electron charge to mass quotient*/ numerval(%echargeemass, -1.758820174E11*C/kg)$ qput(%echargeemass, 4.0*10E-8, RSU)$ /*electron molar mass*/ numerval(%Molar_e, 5.485799110E-7*kg/mol)$ qput(%Molar_e, 2.1*10E-9, RSU)$ /*Compton wavelength*/ numerval(%lambdaC, 2.426310215E-12*m)$ qput(%lambdaC, 7.3*10E-9, RSU)$ /*classical electron radius*/ numerval(%r_e, 2.817940285E-15*m)$ qput(%r_e, 1.1*10E-8, RSU)$ /*Thomson cross section*/ numerval(%sigma_e, 0.665245854E-28*m^2)$ qput(%sigma_e, 2.2*10E-8, RSU)$ /*electron magnetic moment*/ numerval(%u_e, -928.476362E-26*J/T)$ qput(%u_, 4.0*10E-8, RSU)$ /*electron magnetic moment to Bohr magneton ratio*/ numerval(%ueuB, -1.0011596521869)$ qput(%ueuB, 4.1*10E-12, RSU)$ /*electron magnetic moment to nuclear magneton ratio*/ numerval(%ueuN, -1838.2819660)$ qput(%ueuN, 2.1*10E-9, RSU)$ /*electron magnetic moment anomaly |ue|/uB - 1*/ numerval(%a_e, 1.1596521869E-3)$ qput(%a_e, 3.5*10E-9, RSU)$ /*electron g-factor*/ numerval(%g_e, -2.0023193043737)$ qput(%g_e, 4.1*10E-12, RSU)$ /*electron-muon magnetic moment ratio*/ numerval(%ueuu, 206.7669720)$ qput(%ueuu, 3.0*10E-8, RSU)$ /*electron-proton magnetic moment ratio */ numerval(%ueup, -658.2106875)$ qput(%ueup, 1.0*10E-8, RSU)$ /*electron to shielded proton magnetic moment ratio (H2O, sphere, 25 C)*/ numerval(%ueusp, -658.2275954)$ qput(%ueusp, 1.1*10E-8, RSU)$ /*electron-neutron magnetic moment ratio*/ numerval(%ueun, 960.92050)$ qput(%ueun, 2.4*10E-7, RSU)$ /*electron-deuteron magnetic moment ratio*/ numerval(%ueud, -2143.923498)$ qput(%ueud, 1.1*10E-8, RSU)$ /*electron to shielded helione magnetic moment ratio (gas, sphere, 25 C)*/ numerval(%ueush, 864.058255)$ qput(%ueush, 1.2*10E-8, RSU)$ /*electron gyromagnetic ratio*/ numerval(%gamma_e, 1.760859794E11/(s*T))$ qput(%gamma_e, 4.0*10E-8, RSU)$ /*Muon, u- -------------------------------------------------------------------------*/ /*muon mass*/ numerval(%m_u, 1.88353109E-28*kg)$ qput(%m_u, 8.4*10E-8, RSU)$ /*muon mass in muon relative atomic mass times u*/ numerval(%mu_u, 0.1134289168*u)$ qput(%mu_u, 3.0*10E-8, RSU)$ /*energy equivalent*/ numerval(%muc2_J, 1.69283332E-11*J)$ qput(%muc2_J, 8.4*10E-8, RSU)$ /*energy equivalent in MeV*/ numerval(%muc2_MeV, 105.6583568*MeV)$ qput(%muc2_MeV, 4.9*10E-8, RSU)$ /*muon-electron mass ratio*/ numerval(%mume, 206.7682657)$ qput(%mume, 3.0*10E-8, RSU)$ /*muon-tau mass ratio*/ numerval(%mum, 5.94572E-2)$ qput(%mum, 1.6*10E-4, RSU)$ /*muon-proton mass ratio*/ numerval(%mump, 0.1126095173)$ qput(%mump, 3.0*10E-8, RSU)$ /*muon-neutron mass ratio*/ numerval(%mumn, 0.1124545079)$ qput(%mumn, 3.0*10E-8, RSU)$ /*muon molar mass*/ numerval(%Molar_u, 0.1134289168E-3*kg/mol)$ qput(%Molar_u, 3.0*10E-8, RSU)$ /*muon Compton wavelength*/ numerval(%lambda_C_u, 11.73444197E-15*m)$ qput(%lambda_C_u, 2.9*10E-8, RSU)$ /*muon magnetic moment*/ numerval(%uu, -4.49044813E-26*J/T)$ qput(%uu, 4.9*10E-8, RSU)$ /*ratio of muon magnetic moment to Bohr magneton ratio*/ numerval(%uuuB, -4.84197085E-3)$ qput(%uuuB, 3.0*10E-8, RSU)$ /*ratio of muon magnetic moment to nuclear magneton ratio*/ numerval(%uuuN, -8.89059770)$ qput(%uuuN, 3.0*10E-8, RSU)$ /*muon magnetic moment anomaly |uu|/(e /2mu) - 1*/ numerval(%a_u, 1.16591602E-3)$ qput(%a_u, 5.5*10E-7, RSU)$ /*muon g-factor -2(1 + au)*/ numerval(%g_u, -2.0023318320)$ qput(%g_u, 6.4*10E-10, RSU)$ /*muon-proton magnetic moment ratio*/ numerval(%uuup, -3.18334539)$ qput(%uuup, 3.2*10E-8, RSU)$ /*Tau, tau- -------------------------------------------------------------------------*/ /*tau mass*/ numerval(%m_tau, 3.16788E-27*kg)$ qput(%m_tau, 1.6*10E-4, RSU)$ /*tau mass (tau relative atomic mass times u)*/ numerval(%mu_tau, 1.90774*u)$ qput(%mu_tau, 1.6*10E-4, RSU)$ /*tau mass energy equivalent*/ numerval(%mtauc2_J, 2.84715E-10*J)$ qput(%mtauc2_J, 1.6*10E-4, RSU)$ /*tau mass energy equivalent in MeV*/ numerval(%mtauc2_MeV, 1777.05*MeV)$ qput(%mtauc2_MeV, 1.6*10E-4, RSU)$ /*tau-electron mass ratio*/ numerval(%mtaume, 3477.60)$ qput(%mtaume, 1.6*10E-4, RSU)$ /*tau-muon mass ratio*/ numerval(%mtaumu, 16.8188)$ qput(%mtaumu, 1.6*10E-4, RSU)$ /*tau-proton mass ratio*/ numerval(%mtaump, 1.89396)$ qput(%mtaump, 1.6*10E-4, RSU)$ /*tau-neutron mass ratio*/ numerval(%mtaumn, 1.89135)$ qput(%mtaumn, 1.6*10E-4, RSU)$ /*tau molar mass*/ numerval(%Molar_tau, 1.90774E-3*kg/mol)$ qput(%Molar_tau, 1.6*10E-4, RSU)$ /*tau Compton wavelength*/ numerval(%lambda_C_tau, 0.69770E-15*m)$ qput(%lambda_C_tau, 1.6*10E-4, RSU)$ /*Proton, p -------------------------------------------------------------------------*/ /*proton mass*/ numerval(%m_p, 1.67262158E-27*kg)$ qput(%m_p, 7.9*10E-8, RSU)$ /*proton mass (proton relative atomic mass times u)*/ numerval(%mu_p, 1.00727646688*u)$ qput(%mu_p, 1.3*10E-10, RSU)$ /*energy equivalent*/ numerval(%mpc2_J, 1.50327731E-10*J)$ qput(%mpc2_J, 7.9*10E-8, RSU)$ /*energy equivalent in MeV*/ numerval(%mpc2_MeV, 938.271998*MeV)$ qput(%mpc2_MeV, 4.0*10E-8, RSU)$ /*proton-electron mass ratio*/ numerval(%mpme, 1836.1526675)$ qput(%mpme, 2.1*10E-9, RSU)$ /*proton-muon mass ratio*/ numerval(%mpmu, 8.88024408)$ qput(%mpmu, 3.0*10E-8, RSU)$ /*proton-tau mass ratio*/ numerval(%mpmtau, 0.527994)$ qput(%mpmtau, 1.6*10E-4, RSU)$ /*proton-neutron mass ratio*/ numerval(%mpmn, 0.99862347855)$ qput(%mpmn, 5.8*10E-10, RSU)$ /*proton charge to mass quotient*/ numerval(%emp, 9.57883408E7*C/kg)$ qput(%emp, 4.0*10E-8, RSU)$ /*proton molar mass*/ numerval(%Molar_p, 1.00727646688E-3*kg/mol)$ qput(%Molar_p, 1.3*10E-10, RSU)$ /*proton Compton wavelength h/mpc*/ numerval(%lambda_C_p, 1.321409847E-15*m)$ qput(%lambda_C_p, 7.6*10E-9, RSU)$ /*proton magnetic moment*/ numerval(%up, 1.410606633E-26*J/T)$ qput(%up, 4.1*10E-8, RSU)$ /*proton magnetic moment to Bohr magneton ratio*/ numerval(%upuB, 1.521032203E-3)$ qput(%upuB, 1.0*10E-8, RSU)$ /*proton magnetic moment to nuclear magneton ratio*/ numerval(%upuN, 2.792847337)$ qput(%upuN, 1.0*10E-8, RSU)$ /*proton g-factor 2up/uN*/ numerval(%g_p, 5.585694675)$ qput(%g_p, 1.0*10E-8, RSU)$ /*proton-neutron magnetic moment ratio*/ numerval(%upun, -1.45989805)$ qput(%upun, 2.4*10E-7, RSU)$ /*shielded proton magnetic moment (H2O, sphere, 25 C)*/ numerval(%usp, 1.410570399E-26*J/T)$ qput(%usp, 4.2*10E-8, RSU)$ /*shielded proton magnetic moment to Bohr magneton ratio*/ numerval(%uspuB, 1.520993132E-3)$ qput(%uspuB, 1.1*10E-8, RSU)$ /*shielded proton magnetic moment to nuclear magneton ratio*/ numerval(%uspuN, 2.792775597)$ qput(%uspuN, 1.1*10E-8, RSU)$ /*proton magnetic shielding correction 1 - u p/up (H2O, sphere, 25 C)*/ numerval(%spc, 25.687E-6)$ qput(%spc, 5.7*10E-4, RSU)$ /*proton gyromagnetic ratio*/ numerval(%gamma_p, 2.67522212E8/(s*T))$ qput(%gamma_p, 4.1*10E-8, RSU)$ /*shielded proton gyromagnetic ratio (H2O, sphere, 25 C)*/ numerval(%gamma_sp, 2.67515341E8/(s*T))$ qput(%gamma_sp, 4.2*10E-8, RSU)$ /*Neutron, n -------------------------------------------------------------------------*/ /*neutron mass*/ numerval(%m_n, 1.67492716E-27*kg)$ qput(%m_n, 7.9*10E-8, RSU)$ /*neutron mass (neutron relative atomic mass times u)*/ numerval(%mu_n, 1.00866491578*u)$ qput(%mu_n, 5.4*10E-10, RSU)$ /*neutron mass energy equivalent*/ numerval(%mnc2_J, 1.50534946E-10*J)$ qput(%mnc2_J, 7.9*10E-8, RSU)$ /*neutron mass energy equivalent in MeV*/ numerval(%mnc2_MeV, 939.565330*MeV)$ qput(%mnc2_MeV, 4.0*10E-8, RSU)$ /*neutron-electron mass ratio*/ numerval(%mnme, 1838.6836550)$ qput(%mnme, 2.2*10E-9, RSU)$ /*neutron-muon mass ratio*/ numerval(%mnmu, 8.89248478)$ qput(%mnmu, 3.0*10E-8, RSU)$ /*neutron-tau mass ratio*/ numerval(%mnm, 0.528722)$ qput(%mnm, 1.6*10E-4, RSU)$ /*neutron-proton mass ratio*/ numerval(%mnmp, 1.00137841887)$ qput(%mnmp, 5.8*10E-10, RSU)$ /*neutron molar mass*/ numerval(%Molar_n, 1.00866491578E-3*kg/mol)$ qput(%Molar_n, 5.4*10E-10, RSU)$ /*neutron Compton wavelength*/ numerval(%lambda_C_n, 1.319590898E-15*m)$ qput(%lambda_C_n, 7.6*10E-9, RSU)$ /*neutron magnetic moment*/ numerval(%un, -0.96623640E-26*J/T)$ qput(%un, 2.4*10E-7, RSU)$ /*neutron magnetic moment to Bohr magneton ratio*/ numerval(%unuB, -1.04187563E-3)$ qput(%unuB, 2.4*10E-7, RSU)$ /*neutron magnetic moment to nuclear magneton ratio*/ numerval(%unuN, -1.91304272)$ qput(%unuN, 2.4*10E-7, RSU)$ /*neutron g-factor*/ numerval(%g_n, -3.82608545)$ qput(%g_n, 2.4*10E-7, RSU)$ /*neutron-electron magnetic moment ratio*/ numerval(%unue, 1.04066882E-3)$ qput(%unue, 2.4*10E-7, RSU)$ /*neutron-proton magnetic moment ratio*/ numerval(%unup, -0.68497934)$ qput(%unup, 2.4*10E-7, RSU)$ /*neutron to shielded proton magnetic moment ratio (H2O, sphere, 25 C)*/ numerval(%unusp, -0.68499694)$ qput(%unusp, 2.4*10E-7, RSU)$ /*neutron gyromagnetic ratio*/ numerval(%gamma_n, 1.83247188E8/(s*T))$ qput(%gamma_n, 2.4*10E-7, RSU)$ /*Deuteron, d -------------------------------------------------------------------------*/ /*deuteron mass*/ numerval(%m_d, 3.34358309E-27*kg)$ qput(%m_d, 7.9*10E-8, RSU)$ /*deuteron mass (deuteron relative atomic mass times u)*/ numerval(%mu_d, 2.01355321271*u)$ qput(%mu_d, 1.7*10E-10, RSU)$ /*deuteron mass energy equivalent*/ numerval(%mdc2_J, 3.00506262E-10*J)$ qput(%mdc2_J, 7.9*10E-8, RSU)$ /*deuteron mass energy equivalent in MeV*/ numerval(%mdc2_eV, 1875.612762*MeV)$ qput(%mdc2_eV, 4.0*10E-8, RSU)$ /*deuteron-electron mass ratio*/ numerval(%mdme, 3670.4829550)$ qput(%mdme, 2.1*10E-9, RSU)$ /*deuteron-proton mass ratio*/ numerval(%mdmp, 1.99900750083)$ qput(%mdmp, 2.0*10E-10, RSU)$ /*deuteron molar mass*/ numerval(%Molar_d, 2.01355321271E-3*kg/mol)$ qput(%Molar_d, 1.7*10E-10, RSU)$ /*deuteron magnetic moment*/ numerval(%ud, 0.433073457E-26*J/T)$ qput(%ud, 4.2*10E-8, RSU)$ /*deuteron magnetic moment to Bohr magneton ratio*/ numerval(%uduB, 0.4669754556E-3)$ qput(%uduB, 1.1*10E-8, RSU)$ /*deuteron magnetic moment to nuclear magneton ratio*/ numerval(%uduN, 0.8574382284)$ qput(%uduN, 1.1*10E-8, RSU)$ /*deuteron-electron magnetic moment ratio*/ numerval(%udue, -4.664345537E-4)$ qput(%udue, 1.1*10E-8, RSU)$ /*deuteron-proton magnetic moment ratio*/ numerval(%udup, 0.3070122083)$ qput(%udup, 1.5*10E-8, RSU)$ /*deuteron-neutron magnetic moment ratio*/ numerval(%udun, -0.44820652)$ qput(%udun, 2.4*10E-7, RSU)$ /*Helion, h -------------------------------------------------------------------------*/ /*helion mass*/ numerval(%m_h, 5.00641174E-27*kg)$ qput(%m_h, 7.9*10E-8, RSU)$ /*helion mass (helion relative atomic mass times u)*/ numerval(%mu_h, 3.01493223469*u)$ qput(%mu_h, 2.8*10E-10, RSU)$ /*helion mass energy equivalent*/ numerval(%mhc2_J, 4.49953848E-10*J)$ qput(%mhc2_J, 7.9*10E-8, RSU)$ /*helion mass energy equivalent in MeV*/ numerval(%mhc2_MeV, 2808.39132*MeV)$ qput(%mhc2_MeV, 4.0*10E-8, RSU)$ /*helion-electron mass ratio*/ numerval(%mhme, 5495.885238)$ qput(%mhme, 2.1*10E-9, RSU)$ /*helion-proton mass ratio*/ numerval(%mhmp, 2.99315265850)$ qput(%mhmp, 3.1*10E-10, RSU)$ /*helion molar mass*/ numerval(%Molar_h, 3.01493223469E-3*kg/mol)$ qput(%Molar_h, 2.8*10E-10, RSU)$ /*shielded helion magnetic moment (gas, sphere, 25 C)*/ numerval(%ush, -1.074552967E-26*J/T)$ qput(%ush, 4.2*10E-8, RSU)$ /*shielded helion magnetic moment to Bohr magneton ratio*/ numerval(%ushuB, -1.158671474E-3)$ qput(%ushuB, 1.2*10E-8, RSU)$ /*shielded helion magnetic moment to nuclear magneton ratio*/ numerval(%ushuN, -2.127497718)$ qput(%ushuN, 1.2*10E-8, RSU)$ /*shielded helion to proton magnetic moment ratio (gas, sphere, 25 C)*/ numerval(%ushup, -0.761766563)$ qput(%ushup, 1.5*10E-8, RSU)$ /*shielded helion to shielded proton magnetic moment ratio (gas/H2O, spheres, 25 C)*/ numerval(%ushusp, -0.7617861313)$ qput(%ushusp, 4.3*10E-9, RSU)$ /*shielded helion gyromagnetic (gas, sphere, 25 C)*/ numerval(%gamma_h, 2.037894764E8/(s*T))$ qput(%gamma_h, 4.2*10E-8, RSU)$ /*Alpha particle, -------------------------------------------------------------------------*/ /*alpha particle mass*/ numerval(%m_alpha, 6.64465598E-27*kg)$ qput(%m_alpha, 7.9*10E-8, RSU)$ /*alpha particle mass (alpha particle relative atomic mass times u)*/ numerval(%mu_alpha, 4.0015061747*u)$ qput(%mu_alpha, 2.5*10E-10, RSU)$ /*alpha particle mass energy equivalent*/ numerval(%malphac2_J, 5.97191897E-10*J)$ qput(%malphac2_J, 7.9*10E-8, RSU)$ /*alpha particle mass energy equivalent in MeV*/ numerval(%malphac2_MeV, 3727.37904*MeV)$ qput(%malphac2_MeV, 4.0*10E-8, RSU)$ /*alpha particle to electron mass ratio*/ numerval(%malphame, 7294.299508)$ qput(%malphame, 2.1*10E-9, RSU)$ /*alpha particle to proton mass ratio*/ numerval(%malphamp, 3.9725996846)$ qput(%malphamp, 2.8*10E-10, RSU)$ /*alpha particle molar mass*/ numerval(%Molar_alpha, 4.0015061747E-3*kg/mol)$ qput(%Molar_alpha, 2.5*10E-10, RSU)$ /*PHYSICO-CHEMICAL -------------------------------------------------------------------------*/ /*Avogadro constant*/ numerval(%N_A, 6.02214199E23/mol)$ qput(%N_A, 7.9*10E-8, RSU)$ numerval(%%L, 6.02214199E23/mol)$ qput(%%L, 7.9*10E-8, RSU)$ /*atomic mass constant mu = 112m(12C) = 1 u = 10E-3 kg mol-1/NA*/ numerval(%m_u, 1.66053873E-27*kg)$ qput(%m_u, 7.9*10E-8, RSU)$ /*energy equivalent of the atomic mass constant*/ numerval(%muc2_J, 1.49241778E-10*J)$ qput(%muc2_J, 7.9*10E-8, RSU)$ /*energy equivalent of the atomic mass constant in MeV*/ numerval(%muc2_MeV, 931.494013*MeV)$ qput(%muc2_MeV, 4.0*10E-8, RSU)$ /*Faraday constant*/ numerval(%%F, 96485.3415*C/mol)$ qput(%%F, 4.0*10E-8, RSU)$ /*molar Planck constant*/ numerval(%N_Ah, 3.990312689E-10*J*s/mol)$ qput(%N_Ah, 7.6*10E-9, RSU)$ /*molar gas constant*/ numerval(%%R, 8.314472*J/(mol*K))$ qput(%%R, 1.7*10E-6, RSU)$ /*Boltzmann constant*/ numerval(%k_J, 1.3806503E-23*J/K)$ qput(%k_J, 1.7*10E-6, RSU)$ /*Boltzmann constant in eV*/ numerval(%k_eV, 8.617342E-5*eV/K)$ qput(%k_eV, 1.7*10E-6, RSU)$ /*Loschmidt constant NA/Vm*/ numerval(%n_0, 2.6867775E25/m^3)$ qput(%n_0, 1.7*10E-6, RSU)$ /*molar volume of ideal gas RT/p T = 273.15 K, p = 101.325 kPa*/ numerval(%Vm_1, 22.413996E-3*m^3/mol)$ qput(%Vm_1, 1.7*10E-6, RSU)$ /*molar volume of ideal gas RT/p T = 273.15 K, p = 100 kPa*/ numerval(%Vm_2, 22.710981E-3*m^3/mol)$ qput(%Vm_2, 1.7*10E-6, RSU)$ /*Sackur-Tetrode constant (absolute entropy constant) 52 + ln_(2 mukT1/h2)3/2kT1/p0*/ /*T1 = 1 K, p0 = 100 kPa*/ numerval(%S_0R_1, -1.1517048)$ qput(%S_0R_1, 3.8*10E-6, RSU)$ /*T1 = 1 K, p0 = 101.325 kPa*/ numerval(%S_0R_2, -1.1648678)$ qput(%S_0R_2, 3.7*10E-6, RSU)$ /*Stefan-Boltzmann constant*/ numerval(%sigma, 5.670400E-8*W/(m^2*K^4))$ qput(%sigma, 7.0*10E-6, RSU)$ /*first radiation constant*/ numerval(%c_1, 3.74177107E-16*W*m^2)$ qput(%c_1, 7.8*10E-8, RSU)$ /*first radiation constant for spectral radiance*/ numerval(%c_1L, 1.191042722E-16*W*m^2/sr)$ qput(%c_1L, 7.8*10E-8, RSU)$ /*second radiation constant*/ numerval(%c_2, 1.4387752E-2*m*K)$ qput(%c_2, 1.7*10E-6, RSU)$ /*Wien displacement law constant b = maxT = c2/4.965 114231...*/ numerval(%b, 2.8977686E-3*m*K)$ qput(%b, 1.7*10E-6, RSU)$ TTYOFF: NOLABELS, FALSE$