diff --git "a/.local/share/jupyter/nbextensions/snippets_menu/snippets_submenus_python/scipy_constants.js" "b/.local/share/jupyter/nbextensions/snippets_menu/snippets_submenus_python/scipy_constants.js" new file mode 100644--- /dev/null +++ "b/.local/share/jupyter/nbextensions/snippets_menu/snippets_submenus_python/scipy_constants.js" @@ -0,0 +1,2047 @@ +define({ + 'name' : 'Physical and mathematical constants', + 'sub-menu' : [ + { + 'name' : 'Setup', + 'snippet' : [ + 'from scipy import constants', + ], + }, + '---', + { + 'name' : 'Mathematical constants', + 'sub-menu' : [ + { + 'name' : 'Geometric constant \\(\\pi\\)', + 'snippet' : ['constants.pi',] + }, + { + 'name' : 'Golden ratio \\(\\phi\\)', + 'snippet' : ['constants.golden',] + }, + ], + }, + { + 'name' : 'Common physical constants', + 'sub-menu' : [ + { + 'name' : 'Speed of light in vacuum \\(c\\)', + 'snippet' : ['constants.c',], + }, + { + 'name' : 'Magnetic constant \\(\\mu_0\\)', + 'snippet' : ['constants.mu_0',], + }, + { + 'name' : 'Electric constant (vacuum permittivity), \\(\\varepsilon_0\\)', + 'snippet' : ['constants.epsilon_0',], + }, + { + 'name' : 'Planck\'s constant \\(h\\)', + 'snippet' : ['constants.h',], + }, + { + 'name' : 'Planck\'s reduced constant \\(\\hbar\\)', + 'snippet' : ['constants.hbar',], + }, + { + 'name' : 'Newton\'s constant of gravitation \\(G_\\mathrm{N}\\)', + 'snippet' : ['constants.G',], + }, + { + 'name' : 'Standard acceleration of gravity \\(g\\)', + 'snippet' : ['constants.g',], + }, + { + 'name' : 'Elementary charge \\(e\\)', + 'snippet' : ['constants.e',], + }, + { + 'name' : 'Molar gas constant \\(R\\)', + 'snippet' : ['constants.R',], + }, + { + 'name' : 'Fine-structure constant \\(\\alpha\\)', + 'snippet' : ['constants.alpha',], + }, + { + 'name' : 'Avogadro constant \\(N_\\mathrm{A}\\)', + 'snippet' : ['constants.N_A',], + }, + { + 'name' : 'Boltzmann constant \\(k_\\mathrm{B}\\)', + 'snippet' : ['constants.k',], + }, + { + 'name' : 'Stefan-Boltzmann constant \\(\\sigma\\)', + 'snippet' : ['constants.sigma',], + }, + { + 'name' : 'Wien displacement law constant \\(b\\)', + 'snippet' : ['constants.Wien',], + }, + { + 'name' : 'Rydberg constant \\(R_\\infty\\)', + 'snippet' : ['constants.Rydberg',], + }, + { + 'name' : 'Electron mass \\(m_\\mathrm{e}\\)', + 'snippet' : ['constants.m_e',], + }, + { + 'name' : 'Proton mass \\(m_\\mathrm{p}\\)', + 'snippet' : ['constants.m_p',], + }, + { + 'name' : 'Neutron mass \\(m_\\mathrm{n}\\)', + 'snippet' : ['constants.m_n',], + }, + ], + }, + { + 'name' : 'CODATA physical constants', + 'sub-menu' : [ + { + 'name' : 'Example', + 'snippet' : ['value,units,uncertainty = constants.physical_constants["alpha particle mass"]'], + }, + '---', + { + 'name' : 'A', + 'sub-menu' : [ + { + 'name' : 'alpha particle mass', + 'snippet' : ['constants.physical_constants["alpha particle mass"]',], + }, + { + 'name' : 'alpha particle mass energy equivalent', + 'snippet' : ['constants.physical_constants["alpha particle mass energy equivalent"]',], + }, + { + 'name' : 'alpha particle mass energy equivalent in MeV', + 'snippet' : ['constants.physical_constants["alpha particle mass energy equivalent in MeV"]',], + }, + { + 'name' : 'alpha particle mass in u', + 'snippet' : ['constants.physical_constants["alpha particle mass in u"]',], + }, + { + 'name' : 'alpha particle molar mass', + 'snippet' : ['constants.physical_constants["alpha particle molar mass"]',], + }, + { + 'name' : 'alpha particle-electron mass ratio', + 'snippet' : ['constants.physical_constants["alpha particle-electron mass ratio"]',], + }, + { + 'name' : 'alpha particle-proton mass ratio', + 'snippet' : ['constants.physical_constants["alpha particle-proton mass ratio"]',], + }, + { + 'name' : 'Angstrom star', + 'snippet' : ['constants.physical_constants["Angstrom star"]',], + }, + { + 'name' : 'atomic mass constant', + 'snippet' : ['constants.physical_constants["atomic mass constant"]',], + }, + { + 'name' : 'atomic mass constant energy equivalent', + 'snippet' : ['constants.physical_constants["atomic mass constant energy equivalent"]',], + }, + { + 'name' : 'atomic mass constant energy equivalent in MeV', + 'snippet' : ['constants.physical_constants["atomic mass constant energy equivalent in MeV"]',], + }, + { + 'name' : 'atomic mass unit-electron volt relationship', + 'snippet' : ['constants.physical_constants["atomic mass unit-electron volt relationship"]',], + }, + { + 'name' : 'atomic mass unit-hartree relationship', + 'snippet' : ['constants.physical_constants["atomic mass unit-hartree relationship"]',], + }, + { + 'name' : 'atomic mass unit-hertz relationship', + 'snippet' : ['constants.physical_constants["atomic mass unit-hertz relationship"]',], + }, + { + 'name' : 'atomic mass unit-inverse meter relationship', + 'snippet' : ['constants.physical_constants["atomic mass unit-inverse meter relationship"]',], + }, + { + 'name' : 'atomic mass unit-joule relationship', + 'snippet' : ['constants.physical_constants["atomic mass unit-joule relationship"]',], + }, + { + 'name' : 'atomic mass unit-kelvin relationship', + 'snippet' : ['constants.physical_constants["atomic mass unit-kelvin relationship"]',], + }, + { + 'name' : 'atomic mass unit-kilogram relationship', + 'snippet' : ['constants.physical_constants["atomic mass unit-kilogram relationship"]',], + }, + { + 'name' : 'atomic unit of 1st hyperpolarizability', + 'snippet' : ['constants.physical_constants["atomic unit of 1st hyperpolarizability"]',], + }, + { + 'name' : 'atomic unit of 2nd hyperpolarizability', + 'snippet' : ['constants.physical_constants["atomic unit of 2nd hyperpolarizability"]',], + }, + { + 'name' : 'atomic unit of action', + 'snippet' : ['constants.physical_constants["atomic unit of action"]',], + }, + { + 'name' : 'atomic unit of charge', + 'snippet' : ['constants.physical_constants["atomic unit of charge"]',], + }, + { + 'name' : 'atomic unit of charge density', + 'snippet' : ['constants.physical_constants["atomic unit of charge density"]',], + }, + { + 'name' : 'atomic unit of current', + 'snippet' : ['constants.physical_constants["atomic unit of current"]',], + }, + { + 'name' : 'atomic unit of electric dipole mom.', + 'snippet' : ['constants.physical_constants["atomic unit of electric dipole mom."]',], + }, + { + 'name' : 'atomic unit of electric field', + 'snippet' : ['constants.physical_constants["atomic unit of electric field"]',], + }, + { + 'name' : 'atomic unit of electric field gradient', + 'snippet' : ['constants.physical_constants["atomic unit of electric field gradient"]',], + }, + { + 'name' : 'atomic unit of electric polarizability', + 'snippet' : ['constants.physical_constants["atomic unit of electric polarizability"]',], + }, + { + 'name' : 'atomic unit of electric potential', + 'snippet' : ['constants.physical_constants["atomic unit of electric potential"]',], + }, + { + 'name' : 'atomic unit of electric quadrupole mom.', + 'snippet' : ['constants.physical_constants["atomic unit of electric quadrupole mom."]',], + }, + { + 'name' : 'atomic unit of energy', + 'snippet' : ['constants.physical_constants["atomic unit of energy"]',], + }, + { + 'name' : 'atomic unit of force', + 'snippet' : ['constants.physical_constants["atomic unit of force"]',], + }, + { + 'name' : 'atomic unit of length', + 'snippet' : ['constants.physical_constants["atomic unit of length"]',], + }, + { + 'name' : 'atomic unit of mag. dipole mom.', + 'snippet' : ['constants.physical_constants["atomic unit of mag. dipole mom."]',], + }, + { + 'name' : 'atomic unit of mag. flux density', + 'snippet' : ['constants.physical_constants["atomic unit of mag. flux density"]',], + }, + { + 'name' : 'atomic unit of magnetizability', + 'snippet' : ['constants.physical_constants["atomic unit of magnetizability"]',], + }, + { + 'name' : 'atomic unit of mass', + 'snippet' : ['constants.physical_constants["atomic unit of mass"]',], + }, + { + 'name' : 'atomic unit of mom.um', + 'snippet' : ['constants.physical_constants["atomic unit of mom.um"]',], + }, + { + 'name' : 'atomic unit of permittivity', + 'snippet' : ['constants.physical_constants["atomic unit of permittivity"]',], + }, + { + 'name' : 'atomic unit of time', + 'snippet' : ['constants.physical_constants["atomic unit of time"]',], + }, + { + 'name' : 'atomic unit of velocity', + 'snippet' : ['constants.physical_constants["atomic unit of velocity"]',], + }, + { + 'name' : 'Avogadro constant', + 'snippet' : ['constants.physical_constants["Avogadro constant"]',], + }, + ], + }, + { + 'name' : 'B', + 'sub-menu' : [ + { + 'name' : 'Bohr magneton', + 'snippet' : ['constants.physical_constants["Bohr magneton"]',], + }, + { + 'name' : 'Bohr magneton in eV/T', + 'snippet' : ['constants.physical_constants["Bohr magneton in eV/T"]',], + }, + { + 'name' : 'Bohr magneton in Hz/T', + 'snippet' : ['constants.physical_constants["Bohr magneton in Hz/T"]',], + }, + { + 'name' : 'Bohr magneton in inverse meters per tesla', + 'snippet' : ['constants.physical_constants["Bohr magneton in inverse meters per tesla"]',], + }, + { + 'name' : 'Bohr magneton in K/T', + 'snippet' : ['constants.physical_constants["Bohr magneton in K/T"]',], + }, + { + 'name' : 'Bohr radius', + 'snippet' : ['constants.physical_constants["Bohr radius"]',], + }, + { + 'name' : 'Boltzmann constant', + 'snippet' : ['constants.physical_constants["Boltzmann constant"]',], + }, + { + 'name' : 'Boltzmann constant in eV/K', + 'snippet' : ['constants.physical_constants["Boltzmann constant in eV/K"]',], + }, + { + 'name' : 'Boltzmann constant in Hz/K', + 'snippet' : ['constants.physical_constants["Boltzmann constant in Hz/K"]',], + }, + { + 'name' : 'Boltzmann constant in inverse meters per kelvin', + 'snippet' : ['constants.physical_constants["Boltzmann constant in inverse meters per kelvin"]',], + }, + ], + }, + { + 'name' : 'C', + 'sub-menu' : [ + { + 'name' : 'characteristic impedance of vacuum', + 'snippet' : ['constants.physical_constants["characteristic impedance of vacuum"]',], + }, + { + 'name' : 'classical electron radius', + 'snippet' : ['constants.physical_constants["classical electron radius"]',], + }, + { + 'name' : 'Compton wavelength', + 'snippet' : ['constants.physical_constants["Compton wavelength"]',], + }, + { + 'name' : 'Compton wavelength over \\(2\\pi\\)', + 'snippet' : ['constants.physical_constants["Compton wavelength over 2 pi"]',], + }, + { + 'name' : 'conductance quantum', + 'snippet' : ['constants.physical_constants["conductance quantum"]',], + }, + { + 'name' : 'conventional value of Josephson constant', + 'snippet' : ['constants.physical_constants["conventional value of Josephson constant"]',], + }, + { + 'name' : 'conventional value of von Klitzing constant', + 'snippet' : ['constants.physical_constants["conventional value of von Klitzing constant"]',], + }, + { + 'name' : 'Cu x unit', + 'snippet' : ['constants.physical_constants["Cu x unit"]',], + }, + ], + }, + { + 'name' : 'D', + 'sub-menu' : [ + { + 'name' : 'deuteron g factor', + 'snippet' : ['constants.physical_constants["deuteron g factor"]',], + }, + { + 'name' : 'deuteron mag. mom.', + 'snippet' : ['constants.physical_constants["deuteron mag. mom."]',], + }, + { + 'name' : 'deuteron mag. mom. to Bohr magneton ratio', + 'snippet' : ['constants.physical_constants["deuteron mag. mom. to Bohr magneton ratio"]',], + }, + { + 'name' : 'deuteron mag. mom. to nuclear magneton ratio', + 'snippet' : ['constants.physical_constants["deuteron mag. mom. to nuclear magneton ratio"]',], + }, + { + 'name' : 'deuteron mass', + 'snippet' : ['constants.physical_constants["deuteron mass"]',], + }, + { + 'name' : 'deuteron mass energy equivalent', + 'snippet' : ['constants.physical_constants["deuteron mass energy equivalent"]',], + }, + { + 'name' : 'deuteron mass energy equivalent in MeV', + 'snippet' : ['constants.physical_constants["deuteron mass energy equivalent in MeV"]',], + }, + { + 'name' : 'deuteron mass in u', + 'snippet' : ['constants.physical_constants["deuteron mass in u"]',], + }, + { + 'name' : 'deuteron molar mass', + 'snippet' : ['constants.physical_constants["deuteron molar mass"]',], + }, + { + 'name' : 'deuteron rms charge radius', + 'snippet' : ['constants.physical_constants["deuteron rms charge radius"]',], + }, + { + 'name' : 'deuteron-electron mag. mom. ratio', + 'snippet' : ['constants.physical_constants["deuteron-electron mag. mom. ratio"]',], + }, + { + 'name' : 'deuteron-electron mass ratio', + 'snippet' : ['constants.physical_constants["deuteron-electron mass ratio"]',], + }, + { + 'name' : 'deuteron-neutron mag. mom. ratio', + 'snippet' : ['constants.physical_constants["deuteron-neutron mag. mom. ratio"]',], + }, + { + 'name' : 'deuteron-proton mag. mom. ratio', + 'snippet' : ['constants.physical_constants["deuteron-proton mag. mom. ratio"]',], + }, + { + 'name' : 'deuteron-proton mass ratio', + 'snippet' : ['constants.physical_constants["deuteron-proton mass ratio"]',], + }, + ], + }, + { + 'name' : 'E', + 'sub-menu' : [ + { + 'name' : 'electric constant', + 'snippet' : ['constants.physical_constants["electric constant"]',], + }, + { + 'name' : 'electron charge to mass quotient', + 'snippet' : ['constants.physical_constants["electron charge to mass quotient"]',], + }, + { + 'name' : 'electron g factor', + 'snippet' : ['constants.physical_constants["electron g factor"]',], + }, + { + 'name' : 'electron gyromag. ratio', + 'snippet' : ['constants.physical_constants["electron gyromag. ratio"]',], + }, + { + 'name' : 'electron gyromag. ratio over 2 pi', + 'snippet' : ['constants.physical_constants["electron gyromag. ratio over 2 pi"]',], + }, + { + 'name' : 'electron mag. mom.', + 'snippet' : ['constants.physical_constants["electron mag. mom."]',], + }, + { + 'name' : 'electron mag. mom. anomaly', + 'snippet' : ['constants.physical_constants["electron mag. mom. anomaly"]',], + }, + { + 'name' : 'electron mag. mom. to Bohr magneton ratio', + 'snippet' : ['constants.physical_constants["electron mag. mom. to Bohr magneton ratio"]',], + }, + { + 'name' : 'electron mag. mom. to nuclear magneton ratio', + 'snippet' : ['constants.physical_constants["electron mag. mom. to nuclear magneton ratio"]',], + }, + { + 'name' : 'electron mass', + 'snippet' : ['constants.physical_constants["electron mass"]',], + }, + { + 'name' : 'electron mass energy equivalent', + 'snippet' : ['constants.physical_constants["electron mass energy equivalent"]',], + }, + { + 'name' : 'electron mass energy equivalent in MeV', + 'snippet' : ['constants.physical_constants["electron mass energy equivalent in MeV"]',], + }, + { + 'name' : 'electron mass in u', + 'snippet' : ['constants.physical_constants["electron mass in u"]',], + }, + { + 'name' : 'electron molar mass', + 'snippet' : ['constants.physical_constants["electron molar mass"]',], + }, + { + 'name' : 'electron to alpha particle mass ratio', + 'snippet' : ['constants.physical_constants["electron to alpha particle mass ratio"]',], + }, + { + 'name' : 'electron to shielded helion mag. mom. ratio', + 'snippet' : ['constants.physical_constants["electron to shielded helion mag. mom. ratio"]',], + }, + { + 'name' : 'electron to shielded proton mag. mom. ratio', + 'snippet' : ['constants.physical_constants["electron to shielded proton mag. mom. ratio"]',], + }, + { + 'name' : 'electron volt', + 'snippet' : ['constants.physical_constants["electron volt"]',], + }, + { + 'name' : 'electron volt-atomic mass unit relationship', + 'snippet' : ['constants.physical_constants["electron volt-atomic mass unit relationship"]',], + }, + { + 'name' : 'electron volt-hartree relationship', + 'snippet' : ['constants.physical_constants["electron volt-hartree relationship"]',], + }, + { + 'name' : 'electron volt-hertz relationship', + 'snippet' : ['constants.physical_constants["electron volt-hertz relationship"]',], + }, + { + 'name' : 'electron volt-inverse meter relationship', + 'snippet' : ['constants.physical_constants["electron volt-inverse meter relationship"]',], + }, + { + 'name' : 'electron volt-joule relationship', + 'snippet' : ['constants.physical_constants["electron volt-joule relationship"]',], + }, + { + 'name' : 'electron volt-kelvin relationship', + 'snippet' : ['constants.physical_constants["electron volt-kelvin relationship"]',], + }, + { + 'name' : 'electron volt-kilogram relationship', + 'snippet' : ['constants.physical_constants["electron volt-kilogram relationship"]',], + }, + { + 'name' : 'electron-deuteron mag. mom. ratio', + 'snippet' : ['constants.physical_constants["electron-deuteron mag. mom. ratio"]',], + }, + { + 'name' : 'electron-deuteron mass ratio', + 'snippet' : ['constants.physical_constants["electron-deuteron mass ratio"]',], + }, + { + 'name' : 'electron-helion mass ratio', + 'snippet' : ['constants.physical_constants["electron-helion mass ratio"]',], + }, + { + 'name' : 'electron-muon mag. mom. ratio', + 'snippet' : ['constants.physical_constants["electron-muon mag. mom. ratio"]',], + }, + { + 'name' : 'electron-muon mass ratio', + 'snippet' : ['constants.physical_constants["electron-muon mass ratio"]',], + }, + { + 'name' : 'electron-neutron mag. mom. ratio', + 'snippet' : ['constants.physical_constants["electron-neutron mag. mom. ratio"]',], + }, + { + 'name' : 'electron-neutron mass ratio', + 'snippet' : ['constants.physical_constants["electron-neutron mass ratio"]',], + }, + { + 'name' : 'electron-proton mag. mom. ratio', + 'snippet' : ['constants.physical_constants["electron-proton mag. mom. ratio"]',], + }, + { + 'name' : 'electron-proton mass ratio', + 'snippet' : ['constants.physical_constants["electron-proton mass ratio"]',], + }, + { + 'name' : 'electron-tau mass ratio', + 'snippet' : ['constants.physical_constants["electron-tau mass ratio"]',], + }, + { + 'name' : 'electron-triton mass ratio', + 'snippet' : ['constants.physical_constants["electron-triton mass ratio"]',], + }, + { + 'name' : 'elementary charge', + 'snippet' : ['constants.physical_constants["elementary charge"]',], + }, + { + 'name' : 'elementary charge over h', + 'snippet' : ['constants.physical_constants["elementary charge over h"]',], + }, + ], + }, + { + 'name' : 'F', + 'sub-menu' : [ + { + 'name' : 'Faraday constant', + 'snippet' : ['constants.physical_constants["Faraday constant"]',], + }, + { + 'name' : 'Faraday constant for conventional electric current', + 'snippet' : ['constants.physical_constants["Faraday constant for conventional electric current"]',], + }, + { + 'name' : 'Fermi coupling constant', + 'snippet' : ['constants.physical_constants["Fermi coupling constant"]',], + }, + { + 'name' : 'fine-structure constant', + 'snippet' : ['constants.physical_constants["fine-structure constant"]',], + }, + { + 'name' : 'first radiation constant', + 'snippet' : ['constants.physical_constants["first radiation constant"]',], + }, + { + 'name' : 'first radiation constant for spectral radiance', + 'snippet' : ['constants.physical_constants["first radiation constant for spectral radiance"]',], + }, + ], + }, + { + 'name' : 'H', + 'sub-menu' : [ + { + 'name' : 'Hartree energy', + 'snippet' : ['constants.physical_constants["Hartree energy"]',], + }, + { + 'name' : 'Hartree energy in eV', + 'snippet' : ['constants.physical_constants["Hartree energy in eV"]',], + }, + { + 'name' : 'hartree-atomic mass unit relationship', + 'snippet' : ['constants.physical_constants["hartree-atomic mass unit relationship"]',], + }, + { + 'name' : 'hartree-electron volt relationship', + 'snippet' : ['constants.physical_constants["hartree-electron volt relationship"]',], + }, + { + 'name' : 'hartree-hertz relationship', + 'snippet' : ['constants.physical_constants["hartree-hertz relationship"]',], + }, + { + 'name' : 'hartree-inverse meter relationship', + 'snippet' : ['constants.physical_constants["hartree-inverse meter relationship"]',], + }, + { + 'name' : 'hartree-joule relationship', + 'snippet' : ['constants.physical_constants["hartree-joule relationship"]',], + }, + { + 'name' : 'hartree-kelvin relationship', + 'snippet' : ['constants.physical_constants["hartree-kelvin relationship"]',], + }, + { + 'name' : 'hartree-kilogram relationship', + 'snippet' : ['constants.physical_constants["hartree-kilogram relationship"]',], + }, + { + 'name' : 'helion g factor', + 'snippet' : ['constants.physical_constants["helion g factor"]',], + }, + { + 'name' : 'helion mag. mom.', + 'snippet' : ['constants.physical_constants["helion mag. mom."]',], + }, + { + 'name' : 'helion mag. mom. to Bohr magneton ratio', + 'snippet' : ['constants.physical_constants["helion mag. mom. to Bohr magneton ratio"]',], + }, + { + 'name' : 'helion mag. mom. to nuclear magneton ratio', + 'snippet' : ['constants.physical_constants["helion mag. mom. to nuclear magneton ratio"]',], + }, + { + 'name' : 'helion mass', + 'snippet' : ['constants.physical_constants["helion mass"]',], + }, + { + 'name' : 'helion mass energy equivalent', + 'snippet' : ['constants.physical_constants["helion mass energy equivalent"]',], + }, + { + 'name' : 'helion mass energy equivalent in MeV', + 'snippet' : ['constants.physical_constants["helion mass energy equivalent in MeV"]',], + }, + { + 'name' : 'helion mass in u', + 'snippet' : ['constants.physical_constants["helion mass in u"]',], + }, + { + 'name' : 'helion molar mass', + 'snippet' : ['constants.physical_constants["helion molar mass"]',], + }, + { + 'name' : 'helion-electron mass ratio', + 'snippet' : ['constants.physical_constants["helion-electron mass ratio"]',], + }, + { + 'name' : 'helion-proton mass ratio', + 'snippet' : ['constants.physical_constants["helion-proton mass ratio"]',], + }, + { + 'name' : 'hertz-atomic mass unit relationship', + 'snippet' : ['constants.physical_constants["hertz-atomic mass unit relationship"]',], + }, + { + 'name' : 'hertz-electron volt relationship', + 'snippet' : ['constants.physical_constants["hertz-electron volt relationship"]',], + }, + { + 'name' : 'hertz-hartree relationship', + 'snippet' : ['constants.physical_constants["hertz-hartree relationship"]',], + }, + { + 'name' : 'hertz-inverse meter relationship', + 'snippet' : ['constants.physical_constants["hertz-inverse meter relationship"]',], + }, + { + 'name' : 'hertz-joule relationship', + 'snippet' : ['constants.physical_constants["hertz-joule relationship"]',], + }, + { + 'name' : 'hertz-kelvin relationship', + 'snippet' : ['constants.physical_constants["hertz-kelvin relationship"]',], + }, + { + 'name' : 'hertz-kilogram relationship', + 'snippet' : ['constants.physical_constants["hertz-kilogram relationship"]',], + }, + ], + }, + { + 'name' : 'I', + 'sub-menu' : [ + { + 'name' : 'inverse fine-structure constant', + 'snippet' : ['constants.physical_constants["inverse fine-structure constant"]',], + }, + { + 'name' : 'inverse meter-atomic mass unit relationship', + 'snippet' : ['constants.physical_constants["inverse meter-atomic mass unit relationship"]',], + }, + { + 'name' : 'inverse meter-electron volt relationship', + 'snippet' : ['constants.physical_constants["inverse meter-electron volt relationship"]',], + }, + { + 'name' : 'inverse meter-hartree relationship', + 'snippet' : ['constants.physical_constants["inverse meter-hartree relationship"]',], + }, + { + 'name' : 'inverse meter-hertz relationship', + 'snippet' : ['constants.physical_constants["inverse meter-hertz relationship"]',], + }, + { + 'name' : 'inverse meter-joule relationship', + 'snippet' : ['constants.physical_constants["inverse meter-joule relationship"]',], + }, + { + 'name' : 'inverse meter-kelvin relationship', + 'snippet' : ['constants.physical_constants["inverse meter-kelvin relationship"]',], + }, + { + 'name' : 'inverse meter-kilogram relationship', + 'snippet' : ['constants.physical_constants["inverse meter-kilogram relationship"]',], + }, + { + 'name' : 'inverse of conductance quantum', + 'snippet' : ['constants.physical_constants["inverse of conductance quantum"]',], + }, + ], + }, + { + 'name' : 'J', + 'sub-menu' : [ + { + 'name' : 'Josephson constant', + 'snippet' : ['constants.physical_constants["Josephson constant"]',], + }, + { + 'name' : 'joule-atomic mass unit relationship', + 'snippet' : ['constants.physical_constants["joule-atomic mass unit relationship"]',], + }, + { + 'name' : 'joule-electron volt relationship', + 'snippet' : ['constants.physical_constants["joule-electron volt relationship"]',], + }, + { + 'name' : 'joule-hartree relationship', + 'snippet' : ['constants.physical_constants["joule-hartree relationship"]',], + }, + { + 'name' : 'joule-hertz relationship', + 'snippet' : ['constants.physical_constants["joule-hertz relationship"]',], + }, + { + 'name' : 'joule-inverse meter relationship', + 'snippet' : ['constants.physical_constants["joule-inverse meter relationship"]',], + }, + { + 'name' : 'joule-kelvin relationship', + 'snippet' : 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'weak mixing angle', + 'snippet' : ['constants.physical_constants["weak mixing angle"]',], + }, + { + 'name' : 'Wien frequency displacement law constant', + 'snippet' : ['constants.physical_constants["Wien frequency displacement law constant"]',], + }, + { + 'name' : 'Wien wavelength displacement law constant', + 'snippet' : ['constants.physical_constants["Wien wavelength displacement law constant"]',], + }, + ], + }, + { + 'name' : 'Other', + 'sub-menu' : [ + { + 'name' : '{220} lattice spacing of silicon', + 'snippet' : ['constants.physical_constants["{220} lattice spacing of silicon"]',], + }, + ], + }, + ], + }, + { + 'name' : 'Units', + 'sub-menu' : [ + { + 'name' : 'SI prefixes', + 'sub-menu' : [ + { + 'name' : 'yotta \\(10^{24}\\)', + 'snippet' : ['constants.yotta',], + }, + { + 'name' : 'zetta \\(10^{21}\\)', + 'snippet' : ['constants.zetta',], + }, + { + 'name' : 'exa \\(10^{18}\\)', + 'snippet' : ['constants.exa',], + }, + { + 'name' : 'peta \\(10^{15}\\)', + 'snippet' : ['constants.peta',], + }, + { + 'name' : 'tera \\(10^{12}\\)', + 'snippet' : ['constants.tera',], + }, + { + 'name' : 'giga \\(10^{9}\\)', + 'snippet' : ['constants.giga',], + }, + { + 'name' : 'mega \\(10^{6}\\)', + 'snippet' : ['constants.mega',], + }, + { + 'name' : 'kilo \\(10^{3}\\)', + 'snippet' : ['constants.kilo',], + }, + { + 'name' : 'hecto \\(10^{2}\\)', + 'snippet' : ['constants.hecto',], + }, + { + 'name' : 'deka \\(10^{1}\\)', + 'snippet' : ['constants.deka',], + }, + { + 'name' : 'deci \\(10^{−1}\\)', + 'snippet' : ['constants.deci',], + }, + { + 'name' : 'centi \\(10^{−2}\\)', + 'snippet' : ['constants.centi',], + }, + { + 'name' : 'milli \\(10^{−3}\\)', + 'snippet' : ['constants.milli',], + }, + { + 'name' : 'micro \\(10^{−6}\\)', + 'snippet' : ['constants.micro',], + }, + { + 'name' : 'nano \\(10^{−9}\\)', + 'snippet' : ['constants.nano',], + }, + { + 'name' : 'pico \\(10^{−12}\\)', + 'snippet' : ['constants.pico',], + }, + { + 'name' : 'femto \\(10^{−15}\\)', + 'snippet' : ['constants.femto',], + }, + { + 'name' : 'atto \\(10^{−18}\\)', + 'snippet' : ['constants.atto',], + }, + { + 'name' : 'zepto \\(10^{−21}\\)', + 'snippet' : ['constants.zepto',], + }, + ], + }, + { + 'name' : 'Binary prefixes', + 'sub-menu' : [ + { + 'name' : 'kibi \\(2^{10}\\)', + 'snippet' : ['constants.kibi',], + }, + { + 'name' : 'mebi \\(2^{20}\\)', + 'snippet' : ['constants.mebi',], + }, + { + 'name' : 'gibi \\(2^{30}\\)', + 'snippet' : ['constants.gibi',], + }, + { + 'name' : 'tebi \\(2^{40}\\)', + 'snippet' : ['constants.tebi',], + }, + { + 'name' : 'pebi \\(2^{50}\\)', + 'snippet' : ['constants.pebi',], + }, + { + 'name' : 'exbi \\(2^{60}\\)', + 'snippet' : ['constants.exbi',], + }, + { + 'name' : 'zebi \\(2^{70}\\)', + 'snippet' : ['constants.zebi',], + }, + { + 'name' : 'yobi \\(2^{80}\\)', + 'snippet' : ['constants.yobi',], + }, + ], + }, + { + 'name' : 'Weight', + 'sub-menu' : [ + { + 'name' : 'One gram in kg', + 'snippet' : ['constants.gram',], + }, + { + 'name' : 'One metric ton in kg (\\(10^{3}\\))', + 'snippet' : ['constants.metric_ton',], + }, + { + 'name' : 'One grain in kg', + 'snippet' : ['constants.grain',], + }, + { + 'name' : 'One pound (avoirdupois) in kg', + 'snippet' : ['constants.lb',], + }, + { + 'name' : 'One ounce in kg', + 'snippet' : ['constants.oz',], + }, + { + 'name' : 'One stone in kg', + 'snippet' : ['constants.stone',], + }, + { + 'name' : 'One grain in kg', + 'snippet' : ['constants.grain',], + }, + { + 'name' : 'One long ton in kg', + 'snippet' : ['constants.long_ton',], + }, + { + 'name' : 'One short ton in kg', + 'snippet' : ['constants.short_ton',], + }, + { + 'name' : 'One Troy ounce in kg', + 'snippet' : ['constants.troy_ounce',], + }, + { + 'name' : 'One Troy pound in kg', + 'snippet' : ['constants.troy_pound',], + }, + { + 'name' : 'One carat in kg', + 'snippet' : ['constants.carat',], + }, + { + 'name' : 'Atomic mass constant in kg', + 'snippet' : ['constants.m_u',], + }, + ], + }, + { + 'name' : 'Angle', + 'sub-menu' : [ + { + 'name' : 'Degree in radians', + 'snippet' : ['constants.degree',], + }, + { + 'name' : 'Arc minute in radians', + 'snippet' : ['constants.arcmin',], + }, + { + 'name' : 'Arc second in radians', + 'snippet' : ['constants.arcsec',], + }, + ], + }, + { + 'name' : 'Time', + 'sub-menu' : [ + { + 'name' : 'One minute in seconds', + 'snippet' : ['constants.minute',], + }, + { + 'name' : 'One hour in seconds', + 'snippet' : ['constants.hour',], + }, + { + 'name' : 'One day in seconds', + 'snippet' : ['constants.day',], + }, + { + 'name' : 'One week in seconds', + 'snippet' : ['constants.week',], + }, + { + 'name' : 'One year (365 days) in seconds', + 'snippet' : ['constants.year',], + }, + { + 'name' : 'One Julian year (365.25 days) in seconds', + 'snippet' : ['constants.Julian_year',], + }, + ], + }, + { + 'name' : 'Length', + 'sub-menu' : [ + { + 'name' : 'One inch in meters', + 'snippet' : ['constants.inch',], + }, + { + 'name' : 'One foot in meters', + 'snippet' : ['constants.foot',], + }, + { + 'name' : 'One yard in meters', + 'snippet' : ['constants.yard',], + }, + { + 'name' : 'One mile in meters', + 'snippet' : ['constants.mile',], + }, + { + 'name' : 'One mil in meters', + 'snippet' : ['constants.mil',], + }, + { + 'name' : 'One point in meters', + 'snippet' : ['constants.pt',], + }, + { + 'name' : 'One survey foot in meters', + 'snippet' : ['constants.survey_foot',], + }, + { + 'name' : 'One survey mile in meters', + 'snippet' : ['constants.survey_mile',], + }, + { + 'name' : 'One nautical mile in meters', + 'snippet' : ['constants.nautical_mile',], + }, + { + 'name' : 'One Fermi in meters', + 'snippet' : ['constants.fermi',], + }, + { + 'name' : 'One Angstrom in meters', + 'snippet' : ['constants.angstrom',], + }, + { + 'name' : 'One micron in meters', + 'snippet' : ['constants.micron',], + }, + { + 'name' : 'One astronomical unit in meters', + 'snippet' : ['constants.au',], + }, + { + 'name' : 'One light year in meters', + 'snippet' : ['constants.light_year',], + }, + { + 'name' : 'One parsec in meters', + 'snippet' : ['constants.parsec',], + }, + ], + }, + { + 'name' : 'Pressure', + 'sub-menu' : [ + { + 'name' : 'Standard atmosphere in pascals', + 'snippet' : ['constants.atm',], + }, + { + 'name' : 'One bar in pascals', + 'snippet' : ['constants.bar',], + }, + { + 'name' : 'One torr (mmHg) in pascals', + 'snippet' : ['constants.torr',], + }, + { + 'name' : 'One psi in pascals', + 'snippet' : ['constants.psi',], + }, + ], + }, + { + 'name' : 'Area', + 'sub-menu' : [ + { + 'name' : 'One hectare in square meters', + 'snippet' : ['constants.hectare',], + }, + { + 'name' : 'One acre in square meters', + 'snippet' : ['constants.acre',], + }, + ], + }, + { + 'name' : 'Volume', + 'sub-menu' : [ + { + 'name' : 'One liter in cubic meters', + 'snippet' : ['constants.liter',], + }, + { + 'name' : 'One gallon (US) in cubic meters', + 'snippet' : ['constants.gallon',], + }, + { + 'name' : 'One gallon (UK) in cubic meters', + 'snippet' : ['constants.gallon_imp',], + }, + { + 'name' : 'One fluid ounce (US) in cubic meters', + 'snippet' : ['constants.fluid_ounce',], + }, + { + 'name' : 'One fluid ounce (UK) in cubic meters', + 'snippet' : ['constants.fluid_ounce_imp',], + }, + { + 'name' : 'One barrel in cubic meters', + 'snippet' : ['constants.bbl',], + }, + ], + }, + { + 'name' : 'Speed', + 'sub-menu' : [ + { + 'name' : 'Kilometers per hour in meters per second', + 'snippet' : ['constants.kmh',], + }, + { + 'name' : 'Miles per hour in meters per second', + 'snippet' : ['constants.mph',], + }, + { + 'name' : 'One Mach (approx., at 15 C, 1 atm) in meters per second', + 'snippet' : ['constants.mach',], + }, + { + 'name' : 'One knot in meters per second', + 'snippet' : ['constants.knot',], + }, + ], + }, + { + 'name' : 'Temperature', + 'sub-menu' : [ + { + 'name' : 'Zero of Celsius scale in Kelvin', + 'snippet' : ['constants.zero_Celsius',], + }, + { + 'name' : 'One Fahrenheit (only differences) in Kelvins', + 'snippet' : ['constants.degree_Fahrenheit',], + }, + { + 'name' : 'Convert Celsius to Kelvin', + 'snippet' : ['constants.C2K(C)',], + }, + { + 'name' : 'Convert Kelvin to Celsius', + 'snippet' : ['constants.K2C(K)',], + }, + { + 'name' : 'Convert Fahrenheit to Celsius', + 'snippet' : ['constants.F2C(F)',], + }, + { + 'name' : 'Convert Celsius to Fahrenheit', + 'snippet' : ['constants.C2F(C)',], + }, + { + 'name' : 'Convert Fahrenheit to Kelvin', + 'snippet' : ['constants.F2K(F)',], + }, + { + 'name' : 'Convert Kelvin to Fahrenheit', + 'snippet' : ['constants.K2F(K)',], + }, + ], + }, + { + 'name' : 'Energy', + 'sub-menu' : [ + { + 'name' : 'One electron volt in Joules', + 'snippet' : ['constants.eV',], + }, + { + 'name' : 'One calorie (thermochemical) in Joules', + 'snippet' : ['constants.calorie',], + }, + { + 'name' : 'One calorie (International Steam Table calorie, 1956) in Joules', + 'snippet' : ['constants.calorie_IT',], + }, + { + 'name' : 'One erg in Joules', + 'snippet' : ['constants.erg',], + }, + { + 'name' : 'One British thermal unit (International Steam Table) in Joules', + 'snippet' : ['constants.Btu',], + }, + { + 'name' : 'One British thermal unit (thermochemical) in Joules', + 'snippet' : ['constants.Btu_th',], + }, + { + 'name' : 'One ton of TNT in Joules', + 'snippet' : ['constants.ton_TNT',], + }, + ], + }, + { + 'name' : 'Power', + 'sub-menu' : [ + { + 'name' : 'One horsepower in watts', + 'snippet' : ['constants.hp',], + }, + ], + }, + { + 'name' : 'Force', + 'sub-menu' : [ + { + 'name' : 'One dyne in newtons', + 'snippet' : ['constants.dyn',], + }, + { + 'name' : 'One pound force in newtons', + 'snippet' : ['constants.lbf',], + }, + { + 'name' : 'One kilogram force in newtons', + 'snippet' : ['constants.kgf',], + }, + ], + }, + { + 'name' : 'Optics', + 'sub-menu' : [ + { + 'name' : 'Convert wavelength \\(\\lambda\\) to optical frequency \\(\\nu\\)', + 'snippet' : ['constants.lambda2nu(lambda_)',], + }, + { + 'name' : 'Convert optical frequency \\(\\nu\\) to wavelength \\(\\lambda\\)', + 'snippet' : ['constants.nu2lambda(nu)',], + }, + + ], + }, + ], + }, + ], +});