Documentation for this module may be created at Module:Unit/data/doc
------------------------------------------------------------------
-- Module:Unit data
-- This page holds localization data for Module:Unit.
-- Data sourced from various Wikipedia pages, including:
-- * https://en.wikipedia.org/wiki/Bar_(unit)
-- * https://en.wikipedia.org/wiki/Byte
-- * https://en.wikipedia.org/wiki/International_System_of_Units
-- * https://en.wikipedia.org/wiki/Parts-per_notation
-- * https://en.wikipedia.org/wiki/SI_base_unit
-- * https://en.wikipedia.org/wiki/SI_derived_unit
-- * https://en.wikipedia.org/wiki/Unit_of_time
-- * https://en.wikipedia.org/wiki/Watthour
--
-- TODO: Support pluralization.
------------------------------------------------------------------
return {
-- The format is:
-- ["case sensitive abbreviation to type into the template"] = { "unit to display", "unit name (singular) to show in tooltip"}, -- A brief description of the quantity of the unit.
["caseSensitiveUnits"] = {
["B"] = { "B", "byte" }, -- memory (base 10, 8 bits)
["Bd"] = { "Bd", "baud" }, -- symbol rate
["C/kg"]= { "C/kg", "coulomb per kilogram" }, -- exposure (X and gamma rays)
["Cpkg"]= { "C/kg", "coulomb per kilogram" }, -- exposure (X and gamma rays)
["EB"] = { "EB", "exabyte" }, -- memory (base 10, 8 bits)
["EBd"] = { "EBd", "exabaud" }, -- symbol rate
["EHz"] = { "EHz", "exahertz" }, -- frequency
["EJ"] = { "EJ", "exajoule" }, -- energy, work, heat
["EL"] = { "EL", "exaliter" }, -- volume
["EW"] = { "EW", "exawatt" }, -- power, radiant flux
["EWh"] = { "EW⋅h", "exawatt-hour" }, -- energy
["Eb"] = { "Eb", "exabit" }, -- memory (base 10)
["Eg"] = { "Eg", "exagram" }, -- mass
["EiB"] = { "EiB", "exbibyte" }, -- memory (base 2, 8 bits)
["Eib"] = { "Eib", "exbibit" }, -- memory (base 2)
["Eohm"]= { "EΩ", "exaohm" }, -- electrical resistance, impedance, reactance
["GB"] = { "GB", "gigabyte" }, -- memory (base 10, 8 bits)
["GBd"] = { "GBd", "gigabaud" }, -- symbol rate
["GHz"] = { "GHz", "gigahertz" }, -- frequency
["GJ"] = { "GJ", "gigajoule" }, -- energy, work, heat
["GL"] = { "GL", "gigaliter" }, -- volume
["GW"] = { "GW", "gigawatt" }, -- power, radiant flux
["GWh"] = { "GW⋅h", "gigawatt-hour" }, -- energy
["Gb"] = { "Gb", "gigabit" }, -- memory (base 10)
["Gg"] = { "Gg", "gigagram" }, -- mass
["GiB"] = { "GiB", "gibibyte" }, -- memory (base 2, 8 bits)
["Gib"] = { "Gib", "gibibit" }, -- memory (base 2)
["Gohm"]= { "GΩ", "gigaohm" }, -- electrical resistance, impedance, reactance
["H"] = { "H", "henry" }, -- electrical inductance
["H/m"] = { "H/m", "henry per meter" }, -- magnetic permeability
["Hpm"] = { "H/m", "henry per meter" }, -- magnetic permeability
["Hz"] = { "Hz", "hertz" }, -- frequency
["Hz/s"]= { "Hz/s", "hertz per second" }, -- frequency drift
["Hzps"]= { "Hz/s", "hertz per second" }, -- frequency drift
["H−1"] = { "H−1", "reciprocal henry" }, -- magnetic reluctance
["J"] = { "J", "joule" }, -- energy, work, heat
["J/(Kkg)"]= { "J/(K⋅kg)", "joule per kilogram kelvin" }, -- specific heat capacity, specific entropy
["J/(Kmol)"]= { "J/(K⋅mol)", "joule per kelvin mole" }, -- molar heat capacity, molar entropy
["J/(m2s)"]= { "J/(m<sup>2</sup>⋅s)", "joule per square meter second" }, -- energy flux density
["J/K"] = { "J/K", "joule per kelvin" }, -- heat capacity, entropy
["J/T"] = { "J/T", "joule per tesla" }, -- magnetic dipole moment
["J/kg"]= { "J/kg", "joule per kilogram" }, -- specific energy
["J/m2"]= { "J/m<sup>2</sup>", "joule per square meter" }, -- radiant exposure
["J/m3"]= { "J/m<sup>3</sup>", "joule per cubic meter" }, -- energy density
["J/mol"]= { "J/mol", "joule per mole" }, -- molar energy
["Jp(Kkg)"]= { "J/(K⋅kg)", "joule per kilogram kelvin" }, -- specific heat capacity, specific entropy
["Jp(Kmol)"]= { "J/(K⋅mol)", "joule per kelvin mole" }, -- molar heat capacity, molar entropy
["Jp(m2s)"]= { "J/(m<sup>2</sup>⋅s)", "joule per square meter second" }, -- energy flux density
["JpK"] = { "J/K", "joule per kelvin" }, -- heat capacity, entropy
["JpT"] = { "J/T", "joule per tesla" }, -- magnetic dipole moment
["Jpkg"]= { "J/kg", "joule per kilogram" }, -- specific energy
["Jpm2"]= { "J/m<sup>2</sup>", "joule per square meter" }, -- radiant exposure
["Jpm3"]= { "J/m<sup>3</sup>", "joule per cubic meter" }, -- energy density
["Jpmol"]= { "J/mol", "joule per mole" }, -- molar energy
["Js"] = { "J⋅s", "joule-second" }, -- action
["K/W"] = { "K/W", "kelvin per watt" }, -- thermal resistance
["KiB"] = { "KiB", "kibibyte" }, -- memory (base 2, 8 bits)
["Kib"] = { "Kib", "kibibit" }, -- memory (base 2)
["KpW"] = { "K/W", "kelvin per watt" }, -- thermal resistance
["L"] = { "L", "kilogram square meter" }, -- moment of inertia
["MB"] = { "MB", "megabyte" }, -- memory (base 10, 8 bits)
["MBd"] = { "MBd", "megabaud" }, -- symbol rate
["MHz"] = { "MHz", "megahertz" }, -- frequency
["MJ"] = { "MJ", "megajoule" }, -- energy, work, heat
["ML"] = { "ML", "megaliter" }, -- volume
["MPa"] = { "MPa", "megapascal" }, -- pressure, stress
["MW"] = { "MW", "megawatt" }, -- power, radiant flux
["MWh"] = { "MW⋅h", "megawatt-hour" }, -- energy
["Mb"] = { "Mb", "megabit" }, -- memory (base 10)
["Mbar"]= { "Mbar", "megabar" }, -- pressure
["Mg"] = { "Mg", "megagram" }, -- mass
["MiB"] = { "MiB", "mebibyte" }, -- memory (base 2, 8 bits)
["Mib"] = { "Mib", "mebibit" }, -- memory (base 2)
["Mm"] = { "Mm", "megameter" }, -- length
["Mohm"]= { "MΩ", "megaohm" }, -- electrical resistance, impedance, reactance
["Ms"] = { "Ms", "megasecond" }, -- time
["N"] = { "N", "newton" }, -- force, weight
["N/m"] = { "N/m", "newton per meter" }, -- surface tension, stiffness
["N/s"] = { "N/s", "newton per second" }, -- yank
["Nm"] = { "N⋅m", "newton-meter" }, -- torque, moment of force
["Nms"] = { "N⋅m⋅s", "newton meter second" }, -- angular momentum
["Nms/kg"]= { "N⋅m⋅s/kg", "newton meter second per kilogram" }, -- specific angular momentum
["Nmspkg"]= { "N⋅m⋅s/kg", "newton meter second per kilogram" }, -- specific angular momentum
["Npm"] = { "N/m", "newton per meter" }, -- surface tension, stiffness
["Nps"] = { "N/s", "newton per second" }, -- yank
["Ns"] = { "N⋅s", "newton-second" }, -- momentum, impulse
["PB"] = { "PB", "petabyte" }, -- memory (base 10, 8 bits)
["PBd"] = { "PBd", "petabaud" }, -- symbol rate
["PHz"] = { "PHz", "petahertz" }, -- frequency
["PJ"] = { "PJ", "petajoule" }, -- energy, work, heat
["PL"] = { "PL", "petaliter" }, -- volume
["PPa"] = { "PPa", "petapascal" }, -- pressure, stress
["PW"] = { "PW", "petawatt" }, -- power, radiant flux
["PWh"] = { "PW⋅h", "petawatt-hour" }, -- energy
["Pb"] = { "Pb", "petabit" }, -- memory (base 10)
["Pbar"]= { "Pbar", "petabar" }, -- pressure
["Pg"] = { "Pg", "petagram" }, -- mass
["PiB"] = { "PiB", "pebibyte" }, -- memory (base 2, 8 bits)
["Pib"] = { "Pib", "pebibit" }, -- memory (base 2)
["Pm"] = { "Pm", "petameter" }, -- length
["Pohm"]= { "PΩ", "petaohm" }, -- electrical resistance, impedance, reactance
["Ps"] = { "Ps", "petasecond" }, -- time
["S"] = { "S", "siemens" }, -- electrical conductance
["S/m"] = { "S/m", "siemens per meter" }, -- electrical conductivity
["Sm2/mol"]= { "S⋅m<sup>2</sup>/mol", "siemens square meter per mole" }, -- molar conductivity
["Sm2pmol"]= { "S⋅m<sup>2</sup>/mol", "siemens square meter per mole" }, -- molar conductivity
["Spm"] = { "S/m", "siemens per meter" }, -- electrical conductivity
["T"] = { "T", "tesla" }, -- magnetic induction, magnetic flux density
["TB"] = { "TB", "terabyte" }, -- memory (base 10, 8 bits)
["TBd"] = { "TBd", "terabaud" }, -- symbol rate
["THz"] = { "THz", "terahertz" }, -- frequency
["TJ"] = { "TJ", "terajoule" }, -- energy, work, heat
["TL"] = { "TL", "teraliter" }, -- volume
["TW"] = { "TW", "terawatt" }, -- power, radiant flux
["TWh"] = { "TW⋅h", "terawatt-hour" }, -- energy
["Tb"] = { "Tb", "terabit" }, -- memory (base 10)
["Tg"] = { "Tg", "teragram" }, -- mass
["TiB"] = { "TiB", "tebibyte" }, -- memory (base 2, 8 bits)
["Tib"] = { "Tib", "tebibit" }, -- memory (base 2)
["Tm"] = { "T⋅m", "tesla meter" }, -- magnetic rigidity
["Tohm"]= { "TΩ", "teraohm" }, -- electrical resistance, impedance, reactance
["W"] = { "W", "watt" }, -- power, radiant flux
["W/(mK)"]= { "W/(m⋅K)", "watt per meter kelvin" }, -- thermal conductivity
["W/(srm)"]= { "W/(sr⋅m)", "watt per steradian meter" }, -- spectral intensity
["W/(srm2)"]= { "W/(sr⋅m<sup>2</sup>)", "watt per steradian square meter" }, -- radiance
["W/(srm3)"]= { "W/(sr⋅m<sup>3</sup>)", "watt per steradian cubic meter" }, -- spectral radiance
["W/m"] = { "W/m", "watt per meter" }, -- spectral power
["W/m2"]= { "W/m<sup>2</sup>", "watt per square meter" }, -- heat flux density, irradiance
["W/m3"]= { "W/m<sup>3</sup>", "watt per cubic meter" }, -- spectral irradiance, power density
["W/sr"]= { "W/sr", "watt per steradian" }, -- radiant intensity
["Wh"] = { "W⋅h", "watt-hour" }, -- energy
["Wp(mK)"]= { "W/(m⋅K)", "watt per meter kelvin" }, -- thermal conductivity
["Wp(srm)"]= { "W/(sr⋅m)", "watt per steradian meter" }, -- spectral intensity
["Wp(srm2)"]= { "W/(sr⋅m<sup>2</sup>)", "watt per steradian square meter" }, -- radiance
["Wp(srm3)"]= { "W/(sr⋅m<sup>3</sup>)", "watt per steradian cubic meter" }, -- spectral radiance
["Wpm"] = { "W/m", "watt per meter" }, -- spectral power
["Wpm2"]= { "W/m<sup>2</sup>", "watt per square meter" }, -- heat flux density, irradiance
["Wpm3"]= { "W/m<sup>3</sup>", "watt per cubic meter" }, -- spectral irradiance, power density
["Wpsr"]= { "W/sr", "watt per steradian" }, -- radiant intensity
["YB"] = { "YB", "yottabyte" }, -- memory (base 10, 8 bits)
["YBd"] = { "YBd", "yottabaud" }, -- symbol rate
["YHz"] = { "YHz", "yottahertz" }, -- frequency
["YJ"] = { "YJ", "yottajoule" }, -- energy, work, heat
["YL"] = { "YL", "yottaliter" }, -- volume
["YPa"] = { "YPa", "yottapascal" }, -- pressure, stress
["YW"] = { "YW", "yottawatt" }, -- power, radiant flux
["YWh"] = { "YW⋅h", "yottawatt-hour" }, -- energy
["Yb"] = { "Yb", "yottabit" }, -- memory (base 10)
["Ybar"]= { "Ybar", "yottabar" }, -- pressure
["Yg"] = { "Yg", "yottagram" }, -- mass
["YiB"] = { "YiB", "yobibyte" }, -- memory (base 2, 8 bits)
["Yib"] = { "Yib", "yobibit" }, -- memory (base 2)
["Ym"] = { "Ym", "yottameter" }, -- length
["Yohm"]= { "YΩ", "yottaohm" }, -- electrical resistance, impedance, reactance
["Ys"] = { "Ys", "yottasecond" }, -- time
["ZB"] = { "ZB", "zettabyte" }, -- memory (base 10, 8 bits)
["ZBd"] = { "ZBd", "zettabaud" }, -- symbol rate
["ZHz"] = { "ZHz", "zettahertz" }, -- frequency
["ZJ"] = { "ZJ", "zettajoule" }, -- energy, work, heat
["ZL"] = { "ZL", "zettaliter" }, -- volume
["ZPa"] = { "ZPa", "zettapascal" }, -- pressure, stress
["ZW"] = { "ZW", "zettawatt" }, -- power, radiant flux
["ZWh"] = { "ZW⋅h", "zettawatt-hour" }, -- energy
["Zb"] = { "Zb", "zettabit" }, -- memory (base 10)
["Zbar"]= { "Zbar", "zettabar" }, -- pressure
["Zg"] = { "Zg", "zettagram" }, -- mass
["ZiB"] = { "ZiB", "zebibyte" }, -- memory (base 2, 8 bits)
["Zib"] = { "Zib", "zebibit" }, -- memory (base 2)
["Zm"] = { "Zm", "zettameter" }, -- length
["Zohm"]= { "ZΩ", "zettaohm" }, -- electrical resistance, impedance, reactance
["Zs"] = { "Zs", "zettasecond" }, -- time
["aBd"] = { "aBd", "attobaud" }, -- symbol rate
["aHz"] = { "aHz", "attohertz" }, -- frequency
["aJ"] = { "aJ", "attojoule" }, -- energy, work, heat
["aL"] = { "aL", "attoliter" }, -- volume
["aW"] = { "aW", "attowatt" }, -- power, radiant flux
["aWh"] = { "aW⋅h", "attowatt-hour" }, -- energy
["ag"] = { "ag", "attogram" }, -- mass
["aohm"]= { "aΩ", "attoohm" }, -- electrical resistance, impedance, reactance
["b"] = { "b", "bit" }, -- memory (base 10)
["cBd"] = { "cBd", "centibaud" }, -- symbol rate
["cHz"] = { "cHz", "centihertz" }, -- frequency
["cJ"] = { "cJ", "centijoule" }, -- energy, work, heat
["cL"] = { "cL", "centiliter" }, -- volume
["cW"] = { "cW", "centiwatt" }, -- power, radiant flux
["cWh"] = { "cW⋅h", "centiwatt-hour" }, -- energy
["cg"] = { "cg", "centigram" }, -- mass
["cohm"]= { "cΩ", "centiohm" }, -- electrical resistance, impedance, reactance
["dBd"] = { "dBd", "decibaud" }, -- symbol rate
["dHz"] = { "dHz", "decihertz" }, -- frequency
["dJ"] = { "dJ", "decijoule" }, -- energy, work, heat
["dL"] = { "dL", "deciliter" }, -- volume
["dW"] = { "dW", "deciwatt" }, -- power, radiant flux
["dWh"] = { "dW⋅h", "deciwatt-hour" }, -- energy
["daBd"]= { "daBd", "decabaud" }, -- symbol rate
["daHz"]= { "daHz", "decahertz" }, -- frequency
["daJ"] = { "daJ", "decajoule" }, -- energy, work, heat
["daL"] = { "daL", "decaliter" }, -- volume
["daW"] = { "daW", "decawatt" }, -- power, radiant flux
["daWh"]= { "daW⋅h", "decawatt-hour" }, -- energy
["dag"] = { "dag", "decagram" }, -- mass
["daohm"]= { "daΩ", "decaohm" }, -- electrical resistance, impedance, reactance
["dg"] = { "dg", "decigram" }, -- mass
["dohm"]= { "dΩ", "deciohm" }, -- electrical resistance, impedance, reactance
["fBd"] = { "fBd", "femtobaud" }, -- symbol rate
["fHz"] = { "fHz", "femtohertz" }, -- frequency
["fJ"] = { "fJ", "femtojoule" }, -- energy, work, heat
["fL"] = { "fL", "femtoliter" }, -- volume
["fW"] = { "fW", "femtowatt" }, -- power, radiant flux
["fWh"] = { "fW⋅h", "femtowatt-hour" }, -- energy
["fg"] = { "fg", "femtogram" }, -- mass
["fohm"]= { "fΩ", "femtoohm" }, -- electrical resistance, impedance, reactance
["g"] = { "g", "gram" }, -- mass
["hBd"] = { "hBd", "hectobaud" }, -- symbol rate
["hHz"] = { "hHz", "hectohertz" }, -- frequency
["hJ"] = { "hJ", "hectojoule" }, -- energy, work, heat
["hL"] = { "hL", "hectoliter" }, -- volume
["hW"] = { "hW", "hectowatt" }, -- power, radiant flux
["hWh"] = { "hW⋅h", "hectowatt-hour" }, -- energy
["hg"] = { "hg", "hectogram" }, -- mass
["hohm"]= { "hΩ", "hectoohm" }, -- electrical resistance, impedance, reactance
["kB"] = { "kB", "kilobyte" }, -- memory (base 10, 8 bits)
["kBd"] = { "kBd", "kilobaud" }, -- symbol rate
["kHz"] = { "kHz", "kilohertz" }, -- frequency
["kJ"] = { "kJ", "kilojoule" }, -- energy, work, heat
["kL"] = { "kL", "kiloliter" }, -- volume
["kW"] = { "kW", "kilowatt" }, -- power, radiant flux
["kWh"] = { "kW⋅h", "kilowatt-hour" }, -- energy
["kb"] = { "kb", "kilobit" }, -- memory (base 10)
["kg"] = { "kg", "kilogram" }, -- mass
["kg/m"]= { "kg/m", "kilogram per meter" }, -- linear mass density
["kg/m2"]= { "kg/m<sup>2</sup>", "kilogram per square meter" }, -- area density
["kg/m3"]= { "kg/m<sup>3</sup>", "kilogram per cubic meter" }, -- density, mass density
["kg/mol"]= { "kg/mol", "kilogram per mole" }, -- molar mass
["kg/s"]= { "kg/s", "kilogram per second" }, -- mass flow rate
["kgpm"]= { "kg/m", "kilogram per meter" }, -- linear mass density
["kgpm2"]= { "kg/m<sup>2</sup>", "kilogram per square meter" }, -- area density
["kgpm3"]= { "kg/m<sup>3</sup>", "kilogram per cubic meter" }, -- density, mass density
["kgpmol"]= { "kg/mol", "kilogram per mole" }, -- molar mass
["kgps"]= { "kg/s", "kilogram per second" }, -- mass flow rate
["kohm"]= { "kΩ", "kiloohm" }, -- electrical resistance, impedance, reactance
["lm/W"]= { "lm/W", "lumen per watt" }, -- luminous efficacy
["lmpW"]= { "lm/W", "lumen per watt" }, -- luminous efficacy
["m/H"] = { "m/H", "meter per henry" }, -- magnetic susceptibility
["m3/kg"]= { "m<sup>3</sup>/kg", "cubic meter per kilogram" }, -- specific volume
["m3pkg"]= { "m<sup>3</sup>/kg", "cubic meter per kilogram" }, -- specific volume
["mBd"] = { "mBd", "millibaud" }, -- symbol rate
["mHz"] = { "mHz", "millihertz" }, -- frequency
["mJ"] = { "mJ", "millijoule" }, -- energy, work, heat
["mL"] = { "mL", "milliliter" }, -- volume
["mPa"] = { "mPa", "millipascal" }, -- pressure, stress
["mW"] = { "mW", "milliwatt" }, -- power, radiant flux
["mWh"] = { "mW⋅h", "milliwatt-hour" }, -- energy
["mbar"]= { "mbar", "millibar" }, -- pressure
["mg"] = { "mg", "milligram" }, -- mass
["mm"] = { "mm", "millimeter" }, -- length
["mohm"]= { "mΩ", "milliohm" }, -- electrical resistance, impedance, reactance
["mol/kg"]= { "mol/kg", "mole per kilogram" }, -- molality
["molpkg"]= { "mol/kg", "mole per kilogram" }, -- molality
["mpH"] = { "m/H", "meter per henry" }, -- magnetic susceptibility
["ms"] = { "ms", "millisecond" }, -- time
["nBd"] = { "nBd", "nanobaud" }, -- symbol rate
["nHz"] = { "nHz", "nanohertz" }, -- frequency
["nJ"] = { "nJ", "nanojoule" }, -- energy, work, heat
["nL"] = { "nL", "nanoliter" }, -- volume
["nW"] = { "nW", "nanowatt" }, -- power, radiant flux
["nWh"] = { "nW⋅h", "nanowatt-hour" }, -- energy
["ng"] = { "ng", "nanogram" }, -- mass
["nohm"]= { "nΩ", "nanoohm" }, -- electrical resistance, impedance, reactance
["ohm"] = { "Ω", "ohm" }, -- electrical resistance, impedance, reactance
["ohmm"]= { "Ω⋅m", "ohm meter" }, -- resistivity
["pBd"] = { "pBd", "picobaud" }, -- symbol rate
["pHz"] = { "pHz", "picohertz" }, -- frequency
["pJ"] = { "pJ", "picojoule" }, -- energy, work, heat
["pL"] = { "pL", "picoliter" }, -- volume
["pPa"] = { "pPa", "picopascal" }, -- pressure, stress
["pW"] = { "pW", "picowatt" }, -- power, radiant flux
["pWh"] = { "pW⋅h", "picowatt-hour" }, -- energy
["pbar"]= { "pbar", "picobar" }, -- pressure
["pg"] = { "pg", "picogram" }, -- mass
["pm"] = { "pm", "picometer" }, -- length
["pohm"]= { "pΩ", "picoohm" }, -- electrical resistance, impedance, reactance
["ps"] = { "ps", "picosecond" }, -- time
["uBd"] = { "μBd", "microbaud" }, -- symbol rate
["uHz"] = { "μHz", "microhertz" }, -- frequency
["uJ"] = { "μJ", "microjoule" }, -- energy, work, heat
["uL"] = { "μL", "microliter" }, -- volume
["uW"] = { "μW", "microwatt" }, -- power, radiant flux
["uWh"] = { "μW⋅h", "microwatt-hour" }, -- energy
["ug"] = { "μg", "microgram" }, -- mass
["uohm"]= { "μΩ", "microohm" }, -- electrical resistance, impedance, reactance
["yBd"] = { "yBd", "yoctobaud" }, -- symbol rate
["yHz"] = { "yHz", "yoctohertz" }, -- frequency
["yJ"] = { "yJ", "yoctojoule" }, -- energy, work, heat
["yL"] = { "yL", "yoctoliter" }, -- volume
["yPa"] = { "yPa", "yoctopascal" }, -- pressure, stress
["yW"] = { "yW", "yoctowatt" }, -- power, radiant flux
["yWh"] = { "yW⋅h", "yoctowatt-hour" }, -- energy
["ybar"]= { "ybar", "yoctobar" }, -- pressure
["yg"] = { "yg", "yoctogram" }, -- mass
["ym"] = { "ym", "yoctometer" }, -- length
["yohm"]= { "yΩ", "yoctoohm" }, -- electrical resistance, impedance, reactance
["ys"] = { "ys", "yoctosecond" }, -- time
["zBd"] = { "zBd", "zeptobaud" }, -- symbol rate
["zHz"] = { "zHz", "zeptohertz" }, -- frequency
["zJ"] = { "zJ", "zeptojoule" }, -- energy, work, heat
["zL"] = { "zL", "zeptoliter" }, -- volume
["zPa"] = { "zPa", "zeptopascal" }, -- pressure, stress
["zW"] = { "zW", "zeptowatt" }, -- power, radiant flux
["zWh"] = { "zW⋅h", "zeptowatt-hour" }, -- energy
["zbar"]= { "zbar", "zeptobar" }, -- pressure
["zg"] = { "zg", "zeptogram" }, -- mass
["zm"] = { "zm", "zeptometer" }, -- length
["zohm"]= { "zΩ", "zeptoohm" }, -- electrical resistance, impedance, reactance
["zs"] = { "zs", "zeptosecond" }, -- time
},
["caseInsensitiveUnits"] = {
["a"] = { "A", "ampere" }, -- electric current
["a/m"] = { "A/m", "ampere per meter" }, -- magnetization, magnetic field strength
["a/m2"] = { "A/m<sup>2</sup>", "ampere per square meter" }, -- electric current density
["abar"] = { "abar", "attobar" }, -- pressure
["am"] = { "am", "attometer" }, -- length
["apa"] = { "aPa", "attopascal" }, -- pressure, stress
["apm"] = { "A/m", "ampere per meter" }, -- magnetization, magnetic field strength
["apm2"] = { "A/m<sup>2</sup>", "ampere per square meter" }, -- electric current density
["arad"] = { "A⋅rad", "ampere radian" }, -- magnetomotive force
["as"] = { "as", "attosecond" }, -- time
["atm"] = { "atm", "standard atmosphere" }, -- pressure
["bar"] = { "bar", "bar" }, -- pressure
["bq"] = { "Bq", "becquerel" }, -- radioactivity (decays per unit time)
["c"] = { "C", "coulomb" }, -- electric charge or quantity of electricity
["c/m"] = { "C/m", "coulomb per meter" }, -- linear charge density
["c/m2"] = { "C/m<sup>2</sup>", "coulomb per square meter" }, -- electric displacement field, polarization density
["c/m3"] = { "C/m<sup>3</sup>", "coulomb per cubic meter" }, -- electric charge density
["cbar"] = { "cbar", "centibar" }, -- pressure
["cd"] = { "cd", "candela" }, -- luminous intensity
["cd/m2"] = { "cd/m<sup>2</sup>", "candela per square meter" }, -- luminance
["cdpm2"] = { "cd/m<sup>2</sup>", "candela per square meter" }, -- luminance
["cm"] = { "cm", "centimeter" }, -- length
["cpa"] = { "cPa", "centipascal" }, -- pressure, stress
["cpm"] = { "C/m", "coulomb per meter" }, -- linear charge density
["cpm2"] = { "C/m<sup>2</sup>", "coulomb per square meter" }, -- electric displacement field, polarization density
["cpm3"] = { "C/m<sup>3</sup>", "coulomb per cubic meter" }, -- electric charge density
["cs"] = { "cs", "centisecond" }, -- time
["d"] = { "d", "day" }, -- time
["dabar"] = { "dabar", "decabar" }, -- pressure
["dam"] = { "dam", "decameter" }, -- length
["dapa"] = { "daPa", "decapascal" }, -- pressure, stress
["das"] = { "das", "decasecond" }, -- time
["dbar"] = { "dbar", "decibar" }, -- pressure
["degc"] = { "°C", "degree Celsius" }, -- temperature relative to 273.15 K
["dm"] = { "dm", "decimeter" }, -- length
["dpa"] = { "dPa", "decipascal" }, -- pressure, stress
["ds"] = { "ds", "decisecond" }, -- time
["ebar"] = { "Ebar", "exabar" }, -- pressure
["em"] = { "Em", "exameter" }, -- length
["epa"] = { "EPa", "exapascal" }, -- pressure, stress
["es"] = { "Es", "exasecond" }, -- time
["f"] = { "F", "farad" }, -- electrical capacitance
["f/m"] = { "F/m", "farad per meter" }, -- permittivity
["fbar"] = { "fbar", "femtobar" }, -- pressure
["fm"] = { "fm", "femtometer" }, -- length
["fpa"] = { "fPa", "femtopascal" }, -- pressure, stress
["fpm"] = { "F/m", "farad per meter" }, -- permittivity
["fs"] = { "fs", "femtosecond" }, -- time
["gbar"] = { "Gbar", "gigabar" }, -- pressure
["gm"] = { "Gm", "gigameter" }, -- length
["gpa"] = { "GPa", "gigapascal" }, -- pressure, stress
["gs"] = { "Gs", "gigasecond" }, -- time
["gy"] = { "Gy", "gray" }, -- absorbed dose (of ionizing radiation)
["gy/s"] = { "Gy/s", "gray per second" }, -- absorbed dose rate
["gyps"] = { "Gy/s", "gray per second" }, -- absorbed dose rate
["h"] = { "h", "hour" }, -- time
["hbar"] = { "hbar", "hectobar" }, -- pressure
["hm"] = { "hm", "hectometer" }, -- length
["hpa"] = { "hPa", "hectopascal" }, -- pressure, stress
["hr"] = { "hr", "hour" }, -- time
["hs"] = { "hs", "hectosecond" }, -- time
["k"] = { "K", "kelvin" }, -- thermodynamic temperature
["k/m"] = { "K/m", "kelvin per meter" }, -- temperature gradient
["kat"] = { "kat", "katal" }, -- catalytic activity
["kbar"] = { "kbar", "kilobar" }, -- pressure
["km"] = { "km", "kilometer" }, -- length
["kpa"] = { "kPa", "kilopascal" }, -- pressure, stress
["kpm"] = { "K/m", "kelvin per meter" }, -- temperature gradient
["ks"] = { "ks", "kilosecond" }, -- time
["k−1"] = { "K−1", "reciprocal kelvin" }, -- thermal expansion coefficient
["lm"] = { "lm", "lumen" }, -- luminous flux
["lms"] = { "lm⋅s", "lumen second" }, -- luminous energy
["lx"] = { "lx", "lux" }, -- illuminance
["lxs"] = { "lx⋅s", "lux second" }, -- luminous exposure
["m"] = { "m", "meter" }, -- length
["m/m3"] = { "m/m<sup>3</sup>", "meter per cubic meter" }, -- fuel efficiency
["m/s"] = { "m/s", "meter per second" }, -- speed, velocity
["m/s2"] = { "m/s<sup>2</sup>", "meter per second squared" }, -- acceleration
["m/s3"] = { "m/s<sup>3</sup>", "meter per second cubed" }, -- jerk, jolt
["m/s4"] = { "m/s<sup>4</sup>", "meter per second to the fourth" }, -- snap, jounce
["m2"] = { "m<sup>2</sup>", "square meter" }, -- area
["m2/(vs)"] = { "m<sup>2</sup>/(V⋅s)", "square meter per volt second" }, -- electron mobility
["m2/s"] = { "m<sup>2</sup>/s", "square meter per second" }, -- kinematic viscosity, thermal diffusivity, diffusion coefficient
["m2p(vs)"] = { "m<sup>2</sup>/(V⋅s)", "square meter per volt second" }, -- electron mobility
["m2ps"] = { "m<sup>2</sup>/s", "square meter per second" }, -- kinematic viscosity, thermal diffusivity, diffusion coefficient
["m3"] = { "m<sup>3</sup>", "cubic meter" }, -- volume
["m3/(mols)"]= { "m<sup>3</sup>/(mol⋅s)", "cubic meter per mole second" }, -- catalytic efficiency
["m3/mol"] = { "m<sup>3</sup>/mol", "cubic meter per mole" }, -- molar volume
["m3/s"] = { "m<sup>3</sup>/s", "cubic meter per second" }, -- volumetric flow
["m3p(mols)"]= { "m<sup>3</sup>/(mol⋅s)", "cubic meter per mole second" }, -- catalytic efficiency
["m3pmol"] = { "m<sup>3</sup>/mol", "cubic meter per mole" }, -- molar volume
["m3ps"] = { "m<sup>3</sup>/s", "cubic meter per second" }, -- volumetric flow
["min"] = { "min", "minute" }, -- time
["mo"] = { "mo", "month" }, -- time
["mol"] = { "mol", "mole" }, -- amount of substance
["mol/m3"] = { "mol/m<sup>3</sup>", "mole per cubic meter" }, -- molarity, amount of substance concentration
["molpm3"] = { "mol/m<sup>3</sup>", "mole per cubic meter" }, -- molarity, amount of substance concentration
["mol−1"] = { "mol−1", "reciprocal mole" }, -- Avogadro constant
["mpm3"] = { "m/m<sup>3</sup>", "meter per cubic meter" }, -- fuel efficiency
["mps"] = { "m/s", "meter per second" }, -- speed, velocity
["mps2"] = { "m/s<sup>2</sup>", "meter per second squared" }, -- acceleration
["mps3"] = { "m/s<sup>3</sup>", "meter per second cubed" }, -- jerk, jolt
["mps4"] = { "m/s<sup>4</sup>", "meter per second to the fourth" }, -- snap, jounce
["m−1"] = { "m−1", "reciprocal meter" }, -- wavenumber, optical power, curvature, spatial frequency
["nbar"] = { "nbar", "nanobar" }, -- pressure
["nm"] = { "nm", "nanometer" }, -- length
["npa"] = { "nPa", "nanopascal" }, -- pressure, stress
["ns"] = { "ns", "nanosecond" }, -- time
["pa"] = { "Pa", "pascal" }, -- pressure, stress
["pas"] = { "Pa⋅s", "pascal-second" }, -- dynamic viscosity
["pa−1"] = { "Pa−1", "reciprocal pascal" }, -- compressibility
["ppm"] = { "ppm", "parts per million" }, -- quantity
["rad"] = { "rad", "radian" }, -- angle
["rad/s"] = { "rad/s", "radian per second" }, -- angular velocity
["rad/s2"] = { "rad/s<sup>2</sup>", "radian per second squared" }, -- angular acceleration
["radps"] = { "rad/s", "radian per second" }, -- angular velocity
["radps2"] = { "rad/s<sup>2</sup>", "radian per second squared" }, -- angular acceleration
["s"] = { "s", "second" }, -- time
["sr"] = { "sr", "steradian" }, -- solid angle
["sv"] = { "Sv", "sievert" }, -- equivalent dose (of ionizing radiation)
["tbar"] = { "Tbar", "terabar" }, -- pressure
["tm"] = { "Tm", "terameter" }, -- length
["tpa"] = { "TPa", "terapascal" }, -- pressure, stress
["ts"] = { "Ts", "terasecond" }, -- time
["ubar"] = { "μbar", "microbar" }, -- pressure
["um"] = { "μm", "micrometer" }, -- length
["upa"] = { "μPa", "micropascal" }, -- pressure, stress
["us"] = { "μs", "microsecond" }, -- time
["v"] = { "V", "volt" }, -- voltage, electrical potential difference, electromotive force
["v/m"] = { "V/m", "volt per meter" }, -- electric field strength
["vpm"] = { "V/m", "volt per meter" }, -- electric field strength
["w"] = { "w", "week" }, -- time
["wb"] = { "Wb", "weber" }, -- magnetic flux
["wb/m"] = { "Wb/m", "weber per meter" }, -- magnetic vector potential
["wbm"] = { "Wb⋅m", "weber meter" }, -- magnetic moment
["wbpm"] = { "Wb/m", "weber per meter" }, -- magnetic vector potential
["wk"] = { "wk", "week" }, -- time
["y"] = { "y", "year" }, -- time
["yr"] = { "yr", "year" }, -- time
}
}
