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------------------------------------------------------------------
-- 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/United_States_customary_units
-- * https://en.wikipedia.org/wiki/Watthour
------------------------------------------------------------------

return {
    -- The format is:
    -- ["abbreviation to type into the template"] = { "unit to display", "unit name", }, -- A brief description of the quantity of the unit.
    ["caseSensitiveUnits"] = {
		["B"]	=	{ "B", {"byte", "bytes"} },	-- memory (base 10, 8 bits)
		["Bd"]	=	{ "Bd", {"baud", "bauds"} },	-- symbol rate
		["C/kg"]=	{ "C/kg", {"coulomb per kilogram", "coulombs per kilogram"} },	-- exposure (X and gamma rays)
		["Cpkg"]=	{ "C/kg", {"coulomb per kilogram", "coulombs per kilogram"} },	-- exposure (X and gamma rays)
		["EB"]	=	{ "EB", {"exabyte", "exabytes"} },	-- memory (base 10, 8 bits)
		["EBd"]	=	{ "EBd", {"exabaud", "exabauds"} },	-- symbol rate
		["EHz"]	=	{ "EHz", {"exahertz", "exahertz"} },	-- frequency
		["EJ"]	=	{ "EJ", {"exajoule", "exajoules"} },	-- energy, work, heat
		["EL"]	=	{ "EL", {"exaliter", "exaliters"} },	-- volume
		["EW"]	=	{ "EW", {"exawatt", "exawatts"} },	-- power, radiant flux
		["EWh"]	=	{ "EW⋅h", {"exawatt-hour", "exawatt-hours"} },	-- energy
		["Eb"]	=	{ "Eb", {"exabit", "exabits"} },	-- memory (base 10)
		["Eg"]	=	{ "Eg", {"exagram", "exagrams"} },	-- mass
		["EiB"]	=	{ "EiB", {"exbibyte", "exbibytes"} },	-- memory (base 2, 8 bits)
		["Eib"]	=	{ "Eib", {"exbibit", "exbibits"} },	-- memory (base 2)
		["Eohm"]=	{ "EΩ", {"exaohm", "exaohms"} },	-- electrical resistance, impedance, reactance
		["GB"]	=	{ "GB", {"gigabyte", "gigabytes"} },	-- memory (base 10, 8 bits)
		["GBd"]	=	{ "GBd", {"gigabaud", "gigabauds"} },	-- symbol rate
		["GHz"]	=	{ "GHz", {"gigahertz", "gigahertz"} },	-- frequency
		["GJ"]	=	{ "GJ", {"gigajoule", "gigajoules"} },	-- energy, work, heat
		["GL"]	=	{ "GL", {"gigaliter", "gigaliters"} },	-- volume
		["GW"]	=	{ "GW", {"gigawatt", "gigawatts"} },	-- power, radiant flux
		["GWh"]	=	{ "GW⋅h", {"gigawatt-hour", "gigawatt-hours"} },	-- energy
		["Gb"]	=	{ "Gb", {"gigabit", "gigabits"} },	-- memory (base 10)
		["Gg"]	=	{ "Gg", {"gigagram", "gigagrams"} },	-- mass
		["GiB"]	=	{ "GiB", {"gibibyte", "gibibytes"} },	-- memory (base 2, 8 bits)
		["Gib"]	=	{ "Gib", {"gibibit", "gibibits"} },	-- memory (base 2)
		["Gohm"]=	{ "GΩ", {"gigaohm", "gigaohms"} },	-- electrical resistance, impedance, reactance
		["H"]	=	{ "H", {"henry", "henries"} },	-- electrical inductance
		["H/m"]	=	{ "H/m", {"henry per meter", "henries per meter"} },	-- magnetic permeability
		["Hpm"]	=	{ "H/m", {"henry per meter", "henries per meter"} },	-- magnetic permeability
		["Hz"]	=	{ "Hz", {"hertz", "hertz"} },	-- frequency
		["Hz/s"]=	{ "Hz/s", {"hertz per second", "hertz per second"} },	-- frequency drift
		["Hzps"]=	{ "Hz/s", {"hertz per second", "hertz per second"} },	-- frequency drift
		["H−1"]	=	{ "H−1", {"reciprocal henry", "reciprocal henries"} },	-- magnetic reluctance
		["J"]	=	{ "J", {"joule", "joules"} },	-- energy, work, heat
		["J/(Kkg)"]=	{ "J/(K⋅kg)", {"joule per kilogram kelvin", "joules per kilogram kelvin"} },	-- specific heat capacity, specific entropy
		["J/(Kmol)"]=	{ "J/(K⋅mol)", {"joule per kelvin mole", "joules per kelvin mole"} },	-- molar heat capacity, molar entropy
		["J/(m2s)"]=	{ "J/(m<sup>2</sup>&sdot;s)", {"joule per square meter second", "joules per square meter second"} },	-- energy flux density
		["J/K"]	=	{ "J/K", {"joule per kelvin", "joules per kelvin"} },	-- heat capacity, entropy
		["J/T"]	=	{ "J/T", {"joule per tesla", "joules per tesla"} },	-- magnetic dipole moment
		["J/kg"]=	{ "J/kg", {"joule per kilogram", "joules per kilogram"} },	-- specific energy
		["J/m2"]=	{ "J/m<sup>2</sup>", {"joule per square meter", "joules per square meter"} },	-- radiant exposure
		["J/m3"]=	{ "J/m<sup>3</sup>", {"joule per cubic meter", "joules per cubic meter"} },	-- energy density
		["J/mol"]=	{ "J/mol", {"joule per mole", "joules per mole"} },	-- molar energy
		["Jp(Kkg)"]=	{ "J/(K&sdot;kg)", {"joule per kilogram kelvin", "joules per kilogram kelvin"} },	-- specific heat capacity, specific entropy
		["Jp(Kmol)"]=	{ "J/(K&sdot;mol)", {"joule per kelvin mole", "joules per kelvin mole"} },	-- molar heat capacity, molar entropy
		["Jp(m2s)"]=	{ "J/(m<sup>2</sup>&sdot;s)", {"joule per square meter second", "joules per square meter second"} },	-- energy flux density
		["JpK"]	=	{ "J/K", {"joule per kelvin", "joules per kelvin"} },	-- heat capacity, entropy
		["JpT"]	=	{ "J/T", {"joule per tesla", "joules per tesla"} },	-- magnetic dipole moment
		["Jpkg"]=	{ "J/kg", {"joule per kilogram", "joules per kilogram"} },	-- specific energy
		["Jpm2"]=	{ "J/m<sup>2</sup>", {"joule per square meter", "joules per square meter"} },	-- radiant exposure
		["Jpm3"]=	{ "J/m<sup>3</sup>", {"joule per cubic meter", "joules per cubic meter"} },	-- energy density
		["Jpmol"]=	{ "J/mol", {"joule per mole", "joules per mole"} },	-- molar energy
		["Js"]	=	{ "J&sdot;s", {"joule-second", "joule-seconds"} },	-- action
		["K/W"]	=	{ "K/W", {"kelvin per watt", "kelvins per watt"} },	-- thermal resistance
		["KiB"]	=	{ "KiB", {"kibibyte", "kibibytes"} },	-- memory (base 2, 8 bits)
		["Kib"]	=	{ "Kib", {"kibibit", "kibibits"} },	-- memory (base 2)
		["KpW"]	=	{ "K/W", {"kelvin per watt", "kelvins per watt"} },	-- thermal resistance
		["L"]	=	{ "L", {"kilogram square meter", "kilogram square meters"} },	-- moment of inertia
		["MB"]	=	{ "MB", {"megabyte", "megabytes"} },	-- memory (base 10, 8 bits)
		["MBd"]	=	{ "MBd", {"megabaud", "megabauds"} },	-- symbol rate
		["MHz"]	=	{ "MHz", {"megahertz", "megahertz"} },	-- frequency
		["MJ"]	=	{ "MJ", {"megajoule", "megajoules"} },	-- energy, work, heat
		["ML"]	=	{ "ML", {"megaliter", "megaliters"} },	-- volume
		["MPa"]	=	{ "MPa", {"megapascal", "megapascals"} },	-- pressure, stress
		["MW"]	=	{ "MW", {"megawatt", "megawatts"} },	-- power, radiant flux
		["MWh"]	=	{ "MW&sdot;h", {"megawatt-hour", "megawatt-hours"} },	-- energy
		["Mb"]	=	{ "Mb", {"megabit", "megabits"} },	-- memory (base 10)
		["Mbar"]=	{ "Mbar", {"megabar", "megabars"} },	-- pressure
		["Mg"]	=	{ "Mg", {"megagram", "megagrams"} },	-- mass
		["MiB"]	=	{ "MiB", {"mebibyte", "mebibytes"} },	-- memory (base 2, 8 bits)
		["Mib"]	=	{ "Mib", {"mebibit", "mebibits"} },	-- memory (base 2)
		["Mm"]	=	{ "Mm", {"megameter", "megameters"} },	-- length
		["Mm/h"]=	{ "Mm/h", {"megameter per hour", "megameters per hour"} },	-- speed, velocity
		["Mm/s"]=	{ "Mm/s", {"megameter per second", "megameters per second"} },	-- speed, velocity
		["Mmph"]=	{ "Mm/h", {"megameter per hour", "megameters per hour"} },	-- speed, velocity
		["Mmps"]=	{ "Mm/s", {"megameter per second", "megameters per second"} },	-- speed, velocity
		["Mohm"]=	{ "M&Omega;", {"megaohm", "megaohms"} },	-- electrical resistance, impedance, reactance
		["Ms"]	=	{ "Ms", {"megasecond", "megaseconds"} },	-- time
		["N"]	=	{ "N", {"newton", "newtons"} },	-- force, weight
		["N/m"]	=	{ "N/m", {"newton per meter", "newtons per meter"} },	-- surface tension, stiffness
		["N/s"]	=	{ "N/s", {"newton per second", "newtons per second"} },	-- yank
		["Nm"]	=	{ "N&sdot;m", {"newton-meter", "newton-meters"} },	-- torque, moment of force
		["Nms"]	=	{ "N&sdot;m&sdot;s", {"newton meter second", "newton meter seconds"} },	-- angular momentum
		["Nms/kg"]=	{ "N&sdot;m&sdot;s/kg", {"newton meter second per kilogram", "newton meter seconds per kilogram"} },	-- specific angular momentum
		["Nmspkg"]=	{ "N&sdot;m&sdot;s/kg", {"newton meter second per kilogram", "newton meter seconds per kilogram"} },	-- specific angular momentum
		["Npm"]	=	{ "N/m", {"newton per meter", "newtons per meter"} },	-- surface tension, stiffness
		["Nps"]	=	{ "N/s", {"newton per second", "newtons per second"} },	-- yank
		["Ns"]	=	{ "N&sdot;s", {"newton-second", "newton-seconds"} },	-- momentum, impulse
		["PB"]	=	{ "PB", {"petabyte", "petabytes"} },	-- memory (base 10, 8 bits)
		["PBd"]	=	{ "PBd", {"petabaud", "petabauds"} },	-- symbol rate
		["PHz"]	=	{ "PHz", {"petahertz", "petahertz"} },	-- frequency
		["PJ"]	=	{ "PJ", {"petajoule", "petajoules"} },	-- energy, work, heat
		["PL"]	=	{ "PL", {"petaliter", "petaliters"} },	-- volume
		["PPa"]	=	{ "PPa", {"petapascal", "petapascals"} },	-- pressure, stress
		["PW"]	=	{ "PW", {"petawatt", "petawatts"} },	-- power, radiant flux
		["PWh"]	=	{ "PW&sdot;h", {"petawatt-hour", "petawatt-hours"} },	-- energy
		["Pb"]	=	{ "Pb", {"petabit", "petabits"} },	-- memory (base 10)
		["Pbar"]=	{ "Pbar", {"petabar", "petabars"} },	-- pressure
		["Pg"]	=	{ "Pg", {"petagram", "petagrams"} },	-- mass
		["PiB"]	=	{ "PiB", {"pebibyte", "pebibytes"} },	-- memory (base 2, 8 bits)
		["Pib"]	=	{ "Pib", {"pebibit", "pebibits"} },	-- memory (base 2)
		["Pm"]	=	{ "Pm", {"petameter", "petameters"} },	-- length
		["Pm/h"]=	{ "Pm/h", {"petameter per hour", "petameters per hour"} },	-- speed, velocity
		["Pm/s"]=	{ "Pm/s", {"petameter per second", "petameters per second"} },	-- speed, velocity
		["Pmph"]=	{ "Pm/h", {"petameter per hour", "petameters per hour"} },	-- speed, velocity
		["Pmps"]=	{ "Pm/s", {"petameter per second", "petameters per second"} },	-- speed, velocity
		["Pohm"]=	{ "P&Omega;", {"petaohm", "petaohms"} },	-- electrical resistance, impedance, reactance
		["Ps"]	=	{ "Ps", {"petasecond", "petaseconds"} },	-- time
		["S"]	=	{ "S", {"siemen", "siemens"} },	-- electrical conductance
		["S/m"]	=	{ "S/m", {"siemen per meter", "siemens per meter"} },	-- electrical conductivity
		["Sm2/mol"]=	{ "S&sdot;m<sup>2</sup>/mol", {"siemens square meter per mole", "siemens square meters per mole"} },	-- molar conductivity
		["Sm2pmol"]=	{ "S&sdot;m<sup>2</sup>/mol", {"siemens square meter per mole", "siemens square meters per mole"} },	-- molar conductivity
		["Spm"]	=	{ "S/m", {"siemen per meter", "siemens per meter"} },	-- electrical conductivity
		["T"]	=	{ "T", {"tesla", "teslas"} },	-- magnetic induction, magnetic flux density
		["TB"]	=	{ "TB", {"terabyte", "terabytes"} },	-- memory (base 10, 8 bits)
		["TBd"]	=	{ "TBd", {"terabaud", "terabauds"} },	-- symbol rate
		["THz"]	=	{ "THz", {"terahertz", "terahertz"} },	-- frequency
		["TJ"]	=	{ "TJ", {"terajoule", "terajoules"} },	-- energy, work, heat
		["TL"]	=	{ "TL", {"teraliter", "teraliters"} },	-- volume
		["TW"]	=	{ "TW", {"terawatt", "terawatts"} },	-- power, radiant flux
		["TWh"]	=	{ "TW&sdot;h", {"terawatt-hour", "terawatt-hours"} },	-- energy
		["Tb"]	=	{ "Tb", {"terabit", "terabits"} },	-- memory (base 10)
		["Tg"]	=	{ "Tg", {"teragram", "teragrams"} },	-- mass
		["TiB"]	=	{ "TiB", {"tebibyte", "tebibytes"} },	-- memory (base 2, 8 bits)
		["Tib"]	=	{ "Tib", {"tebibit", "tebibits"} },	-- memory (base 2)
		["Tm"]	=	{ "T&sdot;m", {"tesla meter", "tesla meters"} },	-- magnetic rigidity
		["Tohm"]=	{ "T&Omega;", {"teraohm", "teraohms"} },	-- electrical resistance, impedance, reactance
		["W"]	=	{ "W", {"watt", "watts"} },	-- power, radiant flux
		["W/(mK)"]=	{ "W/(m&sdot;K)", {"watt per meter kelvin", "watts per meter kelvin"} },	-- thermal conductivity
		["W/(srm)"]=	{ "W/(sr&sdot;m)", {"watt per steradian meter", "watts per steradian meter"} },	-- spectral intensity
		["W/(srm2)"]=	{ "W/(sr&sdot;m<sup>2</sup>)", {"watt per steradian square meter", "watts per steradian square meter"} },	-- radiance
		["W/(srm3)"]=	{ "W/(sr&sdot;m<sup>3</sup>)", {"watt per steradian cubic meter", "watts per steradian cubic meter"} },	-- spectral radiance
		["W/m"]	=	{ "W/m", {"watt per meter", "watts per meter"} },	-- spectral power
		["W/m2"]=	{ "W/m<sup>2</sup>", {"watt per square meter", "watts per square meter"} },	-- heat flux density, irradiance
		["W/m3"]=	{ "W/m<sup>3</sup>", {"watt per cubic meter", "watts per cubic meter"} },	-- spectral irradiance, power density
		["W/sr"]=	{ "W/sr", {"watt per steradian", "watts per steradian"} },	-- radiant intensity
		["Wh"]	=	{ "W&sdot;h", {"watt-hour", "watt-hours"} },	-- energy
		["Wp(mK)"]=	{ "W/(m&sdot;K)", {"watt per meter kelvin", "watts per meter kelvin"} },	-- thermal conductivity
		["Wp(srm)"]=	{ "W/(sr&sdot;m)", {"watt per steradian meter", "watts per steradian meter"} },	-- spectral intensity
		["Wp(srm2)"]=	{ "W/(sr&sdot;m<sup>2</sup>)", {"watt per steradian square meter", "watts per steradian square meter"} },	-- radiance
		["Wp(srm3)"]=	{ "W/(sr&sdot;m<sup>3</sup>)", {"watt per steradian cubic meter", "watts per steradian cubic meter"} },	-- spectral radiance
		["Wpm"]	=	{ "W/m", {"watt per meter", "watts per meter"} },	-- spectral power
		["Wpm2"]=	{ "W/m<sup>2</sup>", {"watt per square meter", "watts per square meter"} },	-- heat flux density, irradiance
		["Wpm3"]=	{ "W/m<sup>3</sup>", {"watt per cubic meter", "watts per cubic meter"} },	-- spectral irradiance, power density
		["Wpsr"]=	{ "W/sr", {"watt per steradian", "watts per steradian"} },	-- radiant intensity
		["YB"]	=	{ "YB", {"yottabyte", "yottabytes"} },	-- memory (base 10, 8 bits)
		["YBd"]	=	{ "YBd", {"yottabaud", "yottabauds"} },	-- symbol rate
		["YHz"]	=	{ "YHz", {"yottahertz", "yottahertz"} },	-- frequency
		["YJ"]	=	{ "YJ", {"yottajoule", "yottajoules"} },	-- energy, work, heat
		["YL"]	=	{ "YL", {"yottaliter", "yottaliters"} },	-- volume
		["YPa"]	=	{ "YPa", {"yottapascal", "yottapascals"} },	-- pressure, stress
		["YW"]	=	{ "YW", {"yottawatt", "yottawatts"} },	-- power, radiant flux
		["YWh"]	=	{ "YW&sdot;h", {"yottawatt-hour", "yottawatt-hours"} },	-- energy
		["Yb"]	=	{ "Yb", {"yottabit", "yottabits"} },	-- memory (base 10)
		["Ybar"]=	{ "Ybar", {"yottabar", "yottabars"} },	-- pressure
		["Yg"]	=	{ "Yg", {"yottagram", "yottagrams"} },	-- mass
		["YiB"]	=	{ "YiB", {"yobibyte", "yobibytes"} },	-- memory (base 2, 8 bits)
		["Yib"]	=	{ "Yib", {"yobibit", "yobibits"} },	-- memory (base 2)
		["Ym"]	=	{ "Ym", {"yottameter", "yottameters"} },	-- length
		["Ym/h"]=	{ "Ym/h", {"yottameter per hour", "yottameters per hour"} },	-- speed, velocity
		["Ym/s"]=	{ "Ym/s", {"yottameter per second", "yottameters per second"} },	-- speed, velocity
		["Ymph"]=	{ "Ym/h", {"yottameter per hour", "yottameters per hour"} },	-- speed, velocity
		["Ymps"]=	{ "Ym/s", {"yottameter per second", "yottameters per second"} },	-- speed, velocity
		["Yohm"]=	{ "Y&Omega;", {"yottaohm", "yottaohms"} },	-- electrical resistance, impedance, reactance
		["Ys"]	=	{ "Ys", {"yottasecond", "yottaseconds"} },	-- time
		["ZB"]	=	{ "ZB", {"zettabyte", "zettabytes"} },	-- memory (base 10, 8 bits)
		["ZBd"]	=	{ "ZBd", {"zettabaud", "zettabauds"} },	-- symbol rate
		["ZHz"]	=	{ "ZHz", {"zettahertz", "zettahertz"} },	-- frequency
		["ZJ"]	=	{ "ZJ", {"zettajoule", "zettajoules"} },	-- energy, work, heat
		["ZL"]	=	{ "ZL", {"zettaliter", "zettaliters"} },	-- volume
		["ZPa"]	=	{ "ZPa", {"zettapascal", "zettapascals"} },	-- pressure, stress
		["ZW"]	=	{ "ZW", {"zettawatt", "zettawatts"} },	-- power, radiant flux
		["ZWh"]	=	{ "ZW&sdot;h", {"zettawatt-hour", "zettawatt-hours"} },	-- energy
		["Zb"]	=	{ "Zb", {"zettabit", "zettabits"} },	-- memory (base 10)
		["Zbar"]=	{ "Zbar", {"zettabar", "zettabars"} },	-- pressure
		["Zg"]	=	{ "Zg", {"zettagram", "zettagrams"} },	-- mass
		["ZiB"]	=	{ "ZiB", {"zebibyte", "zebibytes"} },	-- memory (base 2, 8 bits)
		["Zib"]	=	{ "Zib", {"zebibit", "zebibits"} },	-- memory (base 2)
		["Zm"]	=	{ "Zm", {"zettameter", "zettameters"} },	-- length
		["Zm/h"]=	{ "Zm/h", {"zettameter per hour", "zettameters per hour"} },	-- speed, velocity
		["Zm/s"]=	{ "Zm/s", {"zettameter per second", "zettameters per second"} },	-- speed, velocity
		["Zmph"]=	{ "Zm/h", {"zettameter per hour", "zettameters per hour"} },	-- speed, velocity
		["Zmps"]=	{ "Zm/s", {"zettameter per second", "zettameters per second"} },	-- speed, velocity
		["Zohm"]=	{ "Z&Omega;", {"zettaohm", "zettaohms"} },	-- electrical resistance, impedance, reactance
		["Zs"]	=	{ "Zs", {"zettasecond", "zettaseconds"} },	-- time
		["aBd"]	=	{ "aBd", {"attobaud", "attobauds"} },	-- symbol rate
		["aHz"]	=	{ "aHz", {"attohertz", "attohertz"} },	-- frequency
		["aJ"]	=	{ "aJ", {"attojoule", "attojoules"} },	-- energy, work, heat
		["aL"]	=	{ "aL", {"attoliter", "attoliters"} },	-- volume
		["aW"]	=	{ "aW", {"attowatt", "attowatts"} },	-- power, radiant flux
		["aWh"]	=	{ "aW&sdot;h", {"attowatt-hour", "attowatt-hours"} },	-- energy
		["ag"]	=	{ "ag", {"attogram", "attograms"} },	-- mass
		["aohm"]=	{ "a&Omega;", {"attoohm", "attoohms"} },	-- electrical resistance, impedance, reactance
		["b"]	=	{ "b", {"bit", "bits"} },	-- memory (base 10)
		["cBd"]	=	{ "cBd", {"centibaud", "centibauds"} },	-- symbol rate
		["cHz"]	=	{ "cHz", {"centihertz", "centihertz"} },	-- frequency
		["cJ"]	=	{ "cJ", {"centijoule", "centijoules"} },	-- energy, work, heat
		["cL"]	=	{ "cL", {"centiliter", "centiliters"} },	-- volume
		["cW"]	=	{ "cW", {"centiwatt", "centiwatts"} },	-- power, radiant flux
		["cWh"]	=	{ "cW&sdot;h", {"centiwatt-hour", "centiwatt-hours"} },	-- energy
		["cg"]	=	{ "cg", {"centigram", "centigrams"} },	-- mass
		["cohm"]=	{ "c&Omega;", {"centiohm", "centiohms"} },	-- electrical resistance, impedance, reactance
		["dBd"]	=	{ "dBd", {"decibaud", "decibauds"} },	-- symbol rate
		["dHz"]	=	{ "dHz", {"decihertz", "decihertz"} },	-- frequency
		["dJ"]	=	{ "dJ", {"decijoule", "decijoules"} },	-- energy, work, heat
		["dL"]	=	{ "dL", {"deciliter", "deciliters"} },	-- volume
		["dW"]	=	{ "dW", {"deciwatt", "deciwatts"} },	-- power, radiant flux
		["dWh"]	=	{ "dW&sdot;h", {"deciwatt-hour", "deciwatt-hours"} },	-- energy
		["daBd"]=	{ "daBd", {"decabaud", "decabauds"} },	-- symbol rate
		["daHz"]=	{ "daHz", {"decahertz", "decahertz"} },	-- frequency
		["daJ"]	=	{ "daJ", {"decajoule", "decajoules"} },	-- energy, work, heat
		["daL"]	=	{ "daL", {"decaliter", "decaliters"} },	-- volume
		["daW"]	=	{ "daW", {"decawatt", "decawatts"} },	-- power, radiant flux
		["daWh"]=	{ "daW&sdot;h", {"decawatt-hour", "decawatt-hours"} },	-- energy
		["dag"]	=	{ "dag", {"decagram", "decagrams"} },	-- mass
		["daohm"]=	{ "da&Omega;", {"decaohm", "decaohms"} },	-- electrical resistance, impedance, reactance
		["dg"]	=	{ "dg", {"decigram", "decigrams"} },	-- mass
		["dohm"]=	{ "d&Omega;", {"deciohm", "deciohms"} },	-- electrical resistance, impedance, reactance
		["fBd"]	=	{ "fBd", {"femtobaud", "femtobauds"} },	-- symbol rate
		["fHz"]	=	{ "fHz", {"femtohertz", "femtohertz"} },	-- frequency
		["fJ"]	=	{ "fJ", {"femtojoule", "femtojoules"} },	-- energy, work, heat
		["fL"]	=	{ "fL", {"femtoliter", "femtoliters"} },	-- volume
		["fW"]	=	{ "fW", {"femtowatt", "femtowatts"} },	-- power, radiant flux
		["fWh"]	=	{ "fW&sdot;h", {"femtowatt-hour", "femtowatt-hours"} },	-- energy
		["fg"]	=	{ "fg", {"femtogram", "femtograms"} },	-- mass
		["fohm"]=	{ "f&Omega;", {"femtoohm", "femtoohms"} },	-- electrical resistance, impedance, reactance
		["g"]	=	{ "g", {"gram", "grams"} },	-- mass
		["hBd"]	=	{ "hBd", {"hectobaud", "hectobauds"} },	-- symbol rate
		["hHz"]	=	{ "hHz", {"hectohertz", "hectohertz"} },	-- frequency
		["hJ"]	=	{ "hJ", {"hectojoule", "hectojoules"} },	-- energy, work, heat
		["hL"]	=	{ "hL", {"hectoliter", "hectoliters"} },	-- volume
		["hW"]	=	{ "hW", {"hectowatt", "hectowatts"} },	-- power, radiant flux
		["hWh"]	=	{ "hW&sdot;h", {"hectowatt-hour", "hectowatt-hours"} },	-- energy
		["hg"]	=	{ "hg", {"hectogram", "hectograms"} },	-- mass
		["hohm"]=	{ "h&Omega;", {"hectoohm", "hectoohms"} },	-- electrical resistance, impedance, reactance
		["kB"]	=	{ "kB", {"kilobyte", "kilobytes"} },	-- memory (base 10, 8 bits)
		["kBd"]	=	{ "kBd", {"kilobaud", "kilobauds"} },	-- symbol rate
		["kHz"]	=	{ "kHz", {"kilohertz", "kilohertz"} },	-- frequency
		["kJ"]	=	{ "kJ", {"kilojoule", "kilojoules"} },	-- energy, work, heat
		["kL"]	=	{ "kL", {"kiloliter", "kiloliters"} },	-- volume
		["kW"]	=	{ "kW", {"kilowatt", "kilowatts"} },	-- power, radiant flux
		["kWh"]	=	{ "kW&sdot;h", {"kilowatt-hour", "kilowatt-hours"} },	-- energy
		["kb"]	=	{ "kb", {"kilobit", "kilobits"} },	-- memory (base 10)
		["kg"]	=	{ "kg", {"kilogram", "kilograms"} },	-- mass
		["kg/m"]=	{ "kg/m", {"kilogram per meter", "kilograms per meter"} },	-- linear mass density
		["kg/m2"]=	{ "kg/m<sup>2</sup>", {"kilogram per square meter", "kilograms per square meter"} },	-- area density
		["kg/m3"]=	{ "kg/m<sup>3</sup>", {"kilogram per cubic meter", "kilograms per cubic meter"} },	-- density, mass density
		["kg/mol"]=	{ "kg/mol", {"kilogram per mole", "kilograms per mole"} },	-- molar mass
		["kg/s"]=	{ "kg/s", {"kilogram per second", "kilograms per second"} },	-- mass flow rate
		["kgpm"]=	{ "kg/m", {"kilogram per meter", "kilograms per meter"} },	-- linear mass density
		["kgpm2"]=	{ "kg/m<sup>2</sup>", {"kilogram per square meter", "kilograms per square meter"} },	-- area density
		["kgpm3"]=	{ "kg/m<sup>3</sup>", {"kilogram per cubic meter", "kilograms per cubic meter"} },	-- density, mass density
		["kgpmol"]=	{ "kg/mol", {"kilogram per mole", "kilograms per mole"} },	-- molar mass
		["kgps"]=	{ "kg/s", {"kilogram per second", "kilograms per second"} },	-- mass flow rate
		["kohm"]=	{ "k&Omega;", {"kiloohm", "kiloohms"} },	-- electrical resistance, impedance, reactance
		["lm/W"]=	{ "lm/W", {"luman per watt", "lumen per watt"} },	-- luminous efficacy
		["lmpW"]=	{ "lm/W", {"luman per watt", "lumen per watt"} },	-- luminous efficacy
		["m/H"]	=	{ "m/H", {"meter per henry", "meters per henry"} },	-- magnetic susceptibility
		["m3/kg"]=	{ "m<sup>3</sup>/kg", {"cubic meter per kilogram", "cubic meters per kilogram"} },	-- specific volume
		["m3pkg"]=	{ "m<sup>3</sup>/kg", {"cubic meter per kilogram", "cubic meters per kilogram"} },	-- specific volume
		["mBd"]	=	{ "mBd", {"millibaud", "millibauds"} },	-- symbol rate
		["mHz"]	=	{ "mHz", {"millihertz", "millihertz"} },	-- frequency
		["mJ"]	=	{ "mJ", {"millijoule", "millijoules"} },	-- energy, work, heat
		["mL"]	=	{ "mL", {"milliliter", "milliliters"} },	-- volume
		["mPa"]	=	{ "mPa", {"millipascal", "millipascals"} },	-- pressure, stress
		["mW"]	=	{ "mW", {"milliwatt", "milliwatts"} },	-- power, radiant flux
		["mWh"]	=	{ "mW&sdot;h", {"milliwatt-hour", "milliwatt-hours"} },	-- energy
		["mbar"]=	{ "mbar", {"millibar", "millibars"} },	-- pressure
		["mg"]	=	{ "mg", {"milligram", "milligrams"} },	-- mass
		["mm"]	=	{ "mm", {"millimeter", "millimeters"} },	-- length
		["mm/h"]=	{ "mm/h", {"millimeter per hour", "millimeters per hour"} },	-- speed, velocity
		["mm/s"]=	{ "mm/s", {"millimeter per second", "millimeters per second"} },	-- speed, velocity
		["mmph"]=	{ "mm/h", {"millimeter per hour", "millimeters per hour"} },	-- speed, velocity
		["mmps"]=	{ "mm/s", {"millimeter per second", "millimeters per second"} },	-- speed, velocity
		["mohm"]=	{ "m&Omega;", {"milliohm", "milliohms"} },	-- electrical resistance, impedance, reactance
		["mol/kg"]=	{ "mol/kg", {"mole per kilogram", "moles per kilogram"} },	-- molality
		["molpkg"]=	{ "mol/kg", {"mole per kilogram", "moles per kilogram"} },	-- molality
		["mpH"]	=	{ "m/H", {"meter per henry", "meters per henry"} },	-- magnetic susceptibility
		["ms"]	=	{ "ms", {"millisecond", "milliseconds"} },	-- time
		["nBd"]	=	{ "nBd", {"nanobaud", "nanobauds"} },	-- symbol rate
		["nHz"]	=	{ "nHz", {"nanohertz", "nanohertz"} },	-- frequency
		["nJ"]	=	{ "nJ", {"nanojoule", "nanojoules"} },	-- energy, work, heat
		["nL"]	=	{ "nL", {"nanoliter", "nanoliters"} },	-- volume
		["nW"]	=	{ "nW", {"nanowatt", "nanowatts"} },	-- power, radiant flux
		["nWh"]	=	{ "nW&sdot;h", {"nanowatt-hour", "nanowatt-hours"} },	-- energy
		["ng"]	=	{ "ng", {"nanogram", "nanograms"} },	-- mass
		["nohm"]=	{ "n&Omega;", {"nanoohm", "nanoohms"} },	-- electrical resistance, impedance, reactance
		["ohm"]	=	{ "&Omega;", {"ohm", "ohms"} },	-- electrical resistance, impedance, reactance
		["ohmm"]=	{ "&Omega;&sdot;m", {"ohm meter", "ohm meters"} },	-- resistivity
		["pBd"]	=	{ "pBd", {"picobaud", "picobauds"} },	-- symbol rate
		["pHz"]	=	{ "pHz", {"picohertz", "picohertz"} },	-- frequency
		["pJ"]	=	{ "pJ", {"picojoule", "picojoules"} },	-- energy, work, heat
		["pL"]	=	{ "pL", {"picoliter", "picoliters"} },	-- volume
		["pPa"]	=	{ "pPa", {"picopascal", "picopascals"} },	-- pressure, stress
		["pW"]	=	{ "pW", {"picowatt", "picowatts"} },	-- power, radiant flux
		["pWh"]	=	{ "pW&sdot;h", {"picowatt-hour", "picowatt-hours"} },	-- energy
		["pbar"]=	{ "pbar", {"picobar", "picobars"} },	-- pressure
		["pg"]	=	{ "pg", {"picogram", "picograms"} },	-- mass
		["pm"]	=	{ "pm", {"picometer", "picometers"} },	-- length
		["pm/h"]=	{ "pm/h", {"picometer per hour", "picometers per hour"} },	-- speed, velocity
		["pm/s"]=	{ "pm/s", {"picometer per second", "picometers per second"} },	-- speed, velocity
		["pmph"]=	{ "pm/h", {"picometer per hour", "picometers per hour"} },	-- speed, velocity
		["pmps"]=	{ "pm/s", {"picometer per second", "picometers per second"} },	-- speed, velocity
		["pohm"]=	{ "p&Omega;", {"picoohm", "picoohms"} },	-- electrical resistance, impedance, reactance
		["ps"]	=	{ "ps", {"picosecond", "picoseconds"} },	-- time
		["uBd"]	=	{ "&mu;Bd", {"microbaud", "microbauds"} },	-- symbol rate
		["uHz"]	=	{ "&mu;Hz", {"microhertz", "microhertz"} },	-- frequency
		["uJ"]	=	{ "&mu;J", {"microjoule", "microjoules"} },	-- energy, work, heat
		["uL"]	=	{ "&mu;L", {"microliter", "microliters"} },	-- volume
		["uW"]	=	{ "&mu;W", {"microwatt", "microwatts"} },	-- power, radiant flux
		["uWh"]	=	{ "&mu;W&sdot;h", {"microwatt-hour", "microwatt-hours"} },	-- energy
		["ug"]	=	{ "&mu;g", {"microgram", "micrograms"} },	-- mass
		["uohm"]=	{ "&mu;&Omega;", {"microohm", "microohms"} },	-- electrical resistance, impedance, reactance
		["yBd"]	=	{ "yBd", {"yoctobaud", "yoctobauds"} },	-- symbol rate
		["yHz"]	=	{ "yHz", {"yoctohertz", "yoctohertz"} },	-- frequency
		["yJ"]	=	{ "yJ", {"yoctojoule", "yoctojoules"} },	-- energy, work, heat
		["yL"]	=	{ "yL", {"yoctoliter", "yoctoliters"} },	-- volume
		["yPa"]	=	{ "yPa", {"yoctopascal", "yoctopascals"} },	-- pressure, stress
		["yW"]	=	{ "yW", {"yoctowatt", "yoctowatts"} },	-- power, radiant flux
		["yWh"]	=	{ "yW&sdot;h", {"yoctowatt-hour", "yoctowatt-hours"} },	-- energy
		["ybar"]=	{ "ybar", {"yoctobar", "yoctobars"} },	-- pressure
		["yg"]	=	{ "yg", {"yoctogram", "yoctograms"} },	-- mass
		["ym"]	=	{ "ym", {"yoctometer", "yoctometers"} },	-- length
		["ym/h"]=	{ "ym/h", {"yoctometer per hour", "yoctometers per hour"} },	-- speed, velocity
		["ym/s"]=	{ "ym/s", {"yoctometer per second", "yoctometers per second"} },	-- speed, velocity
		["ymph"]=	{ "ym/h", {"yoctometer per hour", "yoctometers per hour"} },	-- speed, velocity
		["ymps"]=	{ "ym/s", {"yoctometer per second", "yoctometers per second"} },	-- speed, velocity
		["yohm"]=	{ "y&Omega;", {"yoctoohm", "yoctoohms"} },	-- electrical resistance, impedance, reactance
		["ys"]	=	{ "ys", {"yoctosecond", "yoctoseconds"} },	-- time
		["zBd"]	=	{ "zBd", {"zeptobaud", "zeptobauds"} },	-- symbol rate
		["zHz"]	=	{ "zHz", {"zeptohertz", "zeptohertz"} },	-- frequency
		["zJ"]	=	{ "zJ", {"zeptojoule", "zeptojoules"} },	-- energy, work, heat
		["zL"]	=	{ "zL", {"zeptoliter", "zeptoliters"} },	-- volume
		["zPa"]	=	{ "zPa", {"zeptopascal", "zeptopascals"} },	-- pressure, stress
		["zW"]	=	{ "zW", {"zeptowatt", "zeptowatts"} },	-- power, radiant flux
		["zWh"]	=	{ "zW&sdot;h", {"zeptowatt-hour", "zeptowatt-hours"} },	-- energy
		["zbar"]=	{ "zbar", {"zeptobar", "zeptobars"} },	-- pressure
		["zg"]	=	{ "zg", {"zeptogram", "zeptograms"} },	-- mass
		["zm"]	=	{ "zm", {"zeptometer", "zeptometers"} },	-- length
		["zm/h"]=	{ "zm/h", {"zeptometer per hour", "zeptometers per hour"} },	-- speed, velocity
		["zm/s"]=	{ "zm/s", {"zeptometer per second", "zeptometers per second"} },	-- speed, velocity
		["zmph"]=	{ "zm/h", {"zeptometer per hour", "zeptometers per hour"} },	-- speed, velocity
		["zmps"]=	{ "zm/s", {"zeptometer per second", "zeptometers per second"} },	-- speed, velocity
		["zohm"]=	{ "z&Omega;", {"zeptoohm", "zeptoohms"} },	-- electrical resistance, impedance, reactance
		["zs"]	=	{ "zs", {"zeptosecond", "zeptoseconds"} },	-- time
	},
    ["caseInsensitiveUnits"] = {
		["a"]		=	{ "A", {"ampere", "amperes"} },	-- electric current
		["a/m"]		=	{ "A/m", {"ampere per meter", "amperes per meter"} },	-- magnetization, magnetic field strength
		["a/m2"]	=	{ "A/m<sup>2</sup>", {"ampere per square meter", "amperes per square meter"} },	-- electric current density
		["abar"]	=	{ "abar", {"attobar", "attobars"} },	-- pressure
		["am"]		=	{ "am", {"attometer", "attometers"} },	-- length
		["am/h"]	=	{ "am/h", {"attometer per hour", "attometers per hour"} },	-- speed, velocity
		["am/s"]	=	{ "am/s", {"attometer per second", "attometers per second"} },	-- speed, velocity
		["am2"]		=	{ "am<sup>2</sup>", {"square attometer", "square attometers"} },	-- area
		["am3"]		=	{ "am<sup>3</sup>", {"cubic attometer", "cubic attometers"} },	-- volume
		["amph"]	=	{ "am/h", {"attometer per hour", "attometers per hour"} },	-- speed, velocity
		["amps"]	=	{ "am/s", {"attometer per second", "attometers per second"} },	-- speed, velocity
		["apa"]		=	{ "aPa", {"attopascal", "attopascals"} },	-- pressure, stress
		["apm"]		=	{ "A/m", {"ampere per meter", "amperes per meter"} },	-- magnetization, magnetic field strength
		["apm2"]	=	{ "A/m<sup>2</sup>", {"ampere per square meter", "amperes per square meter"} },	-- electric current density
		["arad"]	=	{ "A&sdot;rad", {"ampere radian", "ampere radians"} },	-- magnetomotive force
		["as"]		=	{ "as", {"attosecond", "attoseconds"} },	-- time
		["atm"]		=	{ "atm", {"standard atmosphere", "standard atmospheres"} },	-- pressure
		["bar"]		=	{ "bar", {"bar", "bars"} },	-- pressure
		["bbl"]		=	{ "bbl", {"barrel", "barrels"} },	-- fluid volume
		["bq"]		=	{ "Bq", {"becquerel", "becquerels"} },	-- radioactivity (decays per unit time)
		["btu"]		=	{ "BTU", {"British thermal unit", "British thermal units"} },	-- energy, heat
		["c"]		=	{ "c", {"cup", "cups"} },	-- fluid volume
		["c/m"]		=	{ "C/m", {"coulomb per meter", "coulombs per meter"} },	-- linear charge density
		["c/m2"]	=	{ "C/m<sup>2</sup>", {"coulomb per square meter", "coulombs per square meter"} },	-- electric displacement field, polarization density
		["c/m3"]	=	{ "C/m<sup>3</sup>", {"coulomb per cubic meter", "coulombs per cubic meter"} },	-- electric charge density
		["cbar"]	=	{ "cbar", {"centibar", "centibars"} },	-- pressure
		["cd"]		=	{ "cd", {"candela", "candelas"} },	-- luminous intensity
		["cd/m2"]	=	{ "cd/m<sup>2</sup>", {"candela per square meter", "candelas per square meter"} },	-- luminance
		["cdpm2"]	=	{ "cd/m<sup>2</sup>", {"candela per square meter", "candelas per square meter"} },	-- luminance
		["cm"]		=	{ "cm", {"centimeter", "centimeters"} },	-- length
		["cm/h"]	=	{ "cm/h", {"centimeter per hour", "centimeters per hour"} },	-- speed, velocity
		["cm/s"]	=	{ "cm/s", {"centimeter per second", "centimeters per second"} },	-- speed, velocity
		["cm2"]		=	{ "cm<sup>2</sup>", {"square centimeter", "square centimeters"} },	-- area
		["cm3"]		=	{ "cm<sup>3</sup>", {"cubic centimeter", "cubic centimeters"} },	-- volume
		["cmph"]	=	{ "cm/h", {"centimeter per hour", "centimeters per hour"} },	-- speed, velocity
		["cmps"]	=	{ "cm/s", {"centimeter per second", "centimeters per second"} },	-- speed, velocity
		["cpa"]		=	{ "cPa", {"centipascal", "centipascals"} },	-- pressure, stress
		["cpm"]		=	{ "C/m", {"coulomb per meter", "coulombs per meter"} },	-- linear charge density
		["cpm2"]	=	{ "C/m<sup>2</sup>", {"coulomb per square meter", "coulombs per square meter"} },	-- electric displacement field, polarization density
		["cpm3"]	=	{ "C/m<sup>3</sup>", {"coulomb per cubic meter", "coulombs per cubic meter"} },	-- electric charge density
		["cs"]		=	{ "cs", {"centisecond", "centiseconds"} },	-- time
		["d"]		=	{ "d", {"day", "days"} },	-- time
		["dabar"]	=	{ "dabar", {"decabar", "decabars"} },	-- pressure
		["dam"]		=	{ "dam", {"decameter", "decameters"} },	-- length
		["dam/h"]	=	{ "dam/h", {"decameter per hour", "decameters per hour"} },	-- speed, velocity
		["dam/s"]	=	{ "dam/s", {"decameter per second", "decameters per second"} },	-- speed, velocity
		["dam2"]	=	{ "dam<sup>2</sup>", {"square decameter", "square decameters"} },	-- area
		["dam3"]	=	{ "dam<sup>3</sup>", {"cubic decameter", "cubic decameters"} },	-- volume
		["damph"]	=	{ "dam/h", {"decameter per hour", "decameters per hour"} },	-- speed, velocity
		["damps"]	=	{ "dam/s", {"decameter per second", "decameters per second"} },	-- speed, velocity
		["dapa"]	=	{ "daPa", {"decapascal", "decapascals"} },	-- pressure, stress
		["das"]		=	{ "das", {"decasecond", "decaseconds"} },	-- time
		["dbar"]	=	{ "dbar", {"decibar", "decibars"} },	-- pressure
		["deg"]		=	{ "&deg;", {"degree", "degrees"} },	-- angle
		["degc"]	=	{ "&deg;C", {"degree Celsius", "degrees Celsius"} },	-- temperature relative to 273.15 K
		["degf"]	=	{ "&deg;F", {"degree Fahrenheit", "degrees Fahrenheit"} },	-- temperature
		["dm"]		=	{ "dm", {"decimeter", "decimeters"} },	-- length
		["dm/h"]	=	{ "dm/h", {"decimeter per hour", "decimeters per hour"} },	-- speed, velocity
		["dm/s"]	=	{ "dm/s", {"decimeter per second", "decimeters per second"} },	-- speed, velocity
		["dm2"]		=	{ "dm<sup>2</sup>", {"square decimeter", "square decimeters"} },	-- area
		["dm3"]		=	{ "dm<sup>3</sup>", {"cubic decimeter", "cubic decimeters"} },	-- volume
		["dmph"]	=	{ "dm/h", {"decimeter per hour", "decimeters per hour"} },	-- speed, velocity
		["dmps"]	=	{ "dm/s", {"decimeter per second", "decimeters per second"} },	-- speed, velocity
		["dpa"]		=	{ "dPa", {"decipascal", "decipascals"} },	-- pressure, stress
		["ds"]		=	{ "ds", {"decisecond", "deciseconds"} },	-- time
		["ebar"]	=	{ "Ebar", {"exabar", "exabars"} },	-- pressure
		["em"]		=	{ "Em", {"exameter", "exameters"} },	-- length
		["em/h"]	=	{ "Em/h", {"exameter per hour", "exameters per hour"} },	-- speed, velocity
		["em/s"]	=	{ "Em/s", {"exameter per second", "exameters per second"} },	-- speed, velocity
		["em2"]		=	{ "Em<sup>2</sup>", {"square exameter", "square exameters"} },	-- area
		["em3"]		=	{ "Em<sup>3</sup>", {"cubic exameter", "cubic exameters"} },	-- volume
		["emph"]	=	{ "Em/h", {"exameter per hour", "exameters per hour"} },	-- speed, velocity
		["emps"]	=	{ "Em/s", {"exameter per second", "exameters per second"} },	-- speed, velocity
		["epa"]		=	{ "EPa", {"exapascal", "exapascals"} },	-- pressure, stress
		["es"]		=	{ "Es", {"exasecond", "exaseconds"} },	-- time
		["f"]		=	{ "F", {"farad", "farads"} },	-- electrical capacitance
		["f/m"]		=	{ "F/m", {"farad per meter", "farads per meter"} },	-- permittivity
		["fbar"]	=	{ "fbar", {"femtobar", "femtobars"} },	-- pressure
		["fl oz"]	=	{ "fl oz", {"fluid ounce", "fluid ounces"} },	-- fluid volume
		["fm"]		=	{ "fm", {"femtometer", "femtometers"} },	-- length
		["fm/h"]	=	{ "fm/h", {"femtometer per hour", "femtometers per hour"} },	-- speed, velocity
		["fm/s"]	=	{ "fm/s", {"femtometer per second", "femtometers per second"} },	-- speed, velocity
		["fm2"]		=	{ "fm<sup>2</sup>", {"square femtometer", "square femtometers"} },	-- area
		["fm3"]		=	{ "fm<sup>3</sup>", {"cubic femtometer", "cubic femtometers"} },	-- volume
		["fmph"]	=	{ "fm/h", {"femtometer per hour", "femtometers per hour"} },	-- speed, velocity
		["fmps"]	=	{ "fm/s", {"femtometer per second", "femtometers per second"} },	-- speed, velocity
		["fpa"]		=	{ "fPa", {"femtopascal", "femtopascals"} },	-- pressure, stress
		["fpm"]		=	{ "F/m", {"farad per meter", "farads per meter"} },	-- permittivity
		["fs"]		=	{ "fs", {"femtosecond", "femtoseconds"} },	-- time
		["ft"]		=	{ "ft", {"foot", "feet"} },	-- length
		["ft2"]		=	{ "ft<sup>2</sup>", {"square foot", "square feet"} },	-- area
		["ft3"]		=	{ "ft<sup>3</sup>", {"cubic foot", "cubic feet"} },	-- volume
		["gal"]		=	{ "gal", {"gallon", "gallons"} },	-- fluid volume
		["gbar"]	=	{ "Gbar", {"gigabar", "gigabars"} },	-- pressure
		["gm"]		=	{ "Gm", {"gigameter", "gigameters"} },	-- length
		["gm/h"]	=	{ "Gm/h", {"gigameter per hour", "gigameters per hour"} },	-- speed, velocity
		["gm/s"]	=	{ "Gm/s", {"gigameter per second", "gigameters per second"} },	-- speed, velocity
		["gm2"]		=	{ "Gm<sup>2</sup>", {"square gigameter", "square gigameters"} },	-- area
		["gm3"]		=	{ "Gm<sup>3</sup>", {"cubic gigameter", "cubic gigameters"} },	-- volume
		["gmph"]	=	{ "Gm/h", {"gigameter per hour", "gigameters per hour"} },	-- speed, velocity
		["gmps"]	=	{ "Gm/s", {"gigameter per second", "gigameters per second"} },	-- speed, velocity
		["gpa"]		=	{ "GPa", {"gigapascal", "gigapascals"} },	-- pressure, stress
		["gs"]		=	{ "Gs", {"gigasecond", "gigaseconds"} },	-- time
		["gy"]		=	{ "Gy", {"gray", "grays"} },	-- absorbed dose (of ionizing radiation)
		["gy/s"]	=	{ "Gy/s", {"gray per second", "grays per second"} },	-- absorbed dose rate
		["gyps"]	=	{ "Gy/s", {"gray per second", "grays per second"} },	-- absorbed dose rate
		["h"]		=	{ "h", {"hmy", "hmies"} },	-- time
		["hbar"]	=	{ "hbar", {"hectobar", "hectobars"} },	-- pressure
		["hm"]		=	{ "hm", {"hectometer", "hectometers"} },	-- length
		["hm/h"]	=	{ "hm/h", {"hectometer per hour", "hectometers per hour"} },	-- speed, velocity
		["hm/s"]	=	{ "hm/s", {"hectometer per second", "hectometers per second"} },	-- speed, velocity
		["hm2"]		=	{ "hm<sup>2</sup>", {"square hectometer", "square hectometers"} },	-- area
		["hm3"]		=	{ "hm<sup>3</sup>", {"cubic hectometer", "cubic hectometers"} },	-- volume
		["hmph"]	=	{ "hm/h", {"hectometer per hour", "hectometers per hour"} },	-- speed, velocity
		["hmps"]	=	{ "hm/s", {"hectometer per second", "hectometers per second"} },	-- speed, velocity
		["hpa"]		=	{ "hPa", {"hectopascal", "hectopascals"} },	-- pressure, stress
		["hr"]		=	{ "hr", {"hmy", "hmies"} },	-- time
		["hs"]		=	{ "hs", {"hectosecond", "hectoseconds"} },	-- time
		["in"]		=	{ "in", {"inch", "inches"} },	-- length
		["in2"]		=	{ "in<sup>2</sup>", {"square inch", "square inches"} },	-- area
		["in3"]		=	{ "in<sup>3</sup>", {"cubic inch", "cubic inches"} },	-- volume
		["k"]		=	{ "K", {"kelvin", "kelvins"} },	-- thermodynamic temperature
		["k/m"]		=	{ "K/m", {"kelvin per meter", "kelvins per meter"} },	-- temperature gradient
		["kat"]		=	{ "kat", {"katal", "katals"} },	-- catalytic activity
		["kbar"]	=	{ "kbar", {"kilobar", "kilobars"} },	-- pressure
		["km"]		=	{ "km", {"kilometer", "kilometers"} },	-- length
		["km/h"]	=	{ "km/h", {"kilometer per hour", "kilometers per hour"} },	-- speed, velocity
		["km/s"]	=	{ "km/s", {"kilometer per second", "kilometers per second"} },	-- speed, velocity
		["km2"]		=	{ "km<sup>2</sup>", {"square kilometer", "square kilometers"} },	-- area
		["km3"]		=	{ "km<sup>3</sup>", {"cubic kilometer", "cubic kilometers"} },	-- volume
		["kmph"]	=	{ "km/h", {"kilometer per hour", "kilometers per hour"} },	-- speed, velocity
		["kmps"]	=	{ "km/s", {"kilometer per second", "kilometers per second"} },	-- speed, velocity
		["kpa"]		=	{ "kPa", {"kilopascal", "kilopascals"} },	-- pressure, stress
		["kpm"]		=	{ "K/m", {"kelvin per meter", "kelvins per meter"} },	-- temperature gradient
		["ks"]		=	{ "ks", {"kilosecond", "kiloseconds"} },	-- time
		["k−1"]		=	{ "K&minus;1", {"reciprocal kelvin", "reciprocal kelvins"} },	-- thermal expansion coefficient
		["lb"]		=	{ "lb", {"pound", "pounds"} },	-- mass
		["lm"]		=	{ "lm", {"luman", "lumen"} },	-- luminous flux
		["lms"]		=	{ "lm&sdot;s", {"lumen second", "lumen seconds"} },	-- luminous energy
		["lx"]		=	{ "lx", {"lux", "luxes"} },	-- illuminance
		["lxs"]		=	{ "lx&sdot;s", {"lux second", "lux seconds"} },	-- luminous exposure
		["m"]		=	{ "m", {"meter", "meters"} },	-- length
		["m/m3"]	=	{ "m/m<sup>3</sup>", {"meter per cubic meter", "meters per cubic meter"} },	-- fuel efficiency
		["m/s"]		=	{ "m/s", {"meter per second", "meters per second"} },	-- speed, velocity
		["m/s2"]	=	{ "m/s<sup>2</sup>", {"meter per second squared", "meters per second squared"} },	-- acceleration
		["m/s3"]	=	{ "m/s<sup>3</sup>", {"meter per second cubed", "meters per second cubed"} },	-- jerk, jolt
		["m/s4"]	=	{ "m/s<sup>4</sup>", {"meter per second to the fourth", "meters per second to the fourth"} },	-- snap, jounce
		["m2"]		=	{ "m<sup>2</sup>", {"square meter", "square meters"} },	-- area
		["m2/(vs)"]	=	{ "m<sup>2</sup>/(V&sdot;s)", {"square meter per volt second", "square meters per volt second"} },	-- electron mobility
		["m2/s"]	=	{ "m<sup>2</sup>/s", {"square meter per second", "square meters per second"} },	-- kinematic viscosity, thermal diffusivity, diffusion coefficient
		["m2p(vs)"]	=	{ "m<sup>2</sup>/(V&sdot;s)", {"square meter per volt second", "square meters per volt second"} },	-- electron mobility
		["m2ps"]	=	{ "m<sup>2</sup>/s", {"square meter per second", "square meters per second"} },	-- kinematic viscosity, thermal diffusivity, diffusion coefficient
		["m3"]		=	{ "m<sup>3</sup>", {"cubic meter", "cubic meters"} },	-- volume
		["m3/(mols)"]=	{ "m<sup>3</sup>/(mol&sdot;s)", {"cubic meter per mole second", "cubic meters per mole second"} },	-- catalytic efficiency
		["m3/mol"]	=	{ "m<sup>3</sup>/mol", {"cubic meter per mole", "cubic meters per mole"} },	-- molar volume
		["m3/s"]	=	{ "m<sup>3</sup>/s", {"cubic meter per second", "cubic meters per second"} },	-- volumetric flow
		["m3p(mols)"]=	{ "m<sup>3</sup>/(mol&sdot;s)", {"cubic meter per mole second", "cubic meters per mole second"} },	-- catalytic efficiency
		["m3pmol"]	=	{ "m<sup>3</sup>/mol", {"cubic meter per mole", "cubic meters per mole"} },	-- molar volume
		["m3ps"]	=	{ "m<sup>3</sup>/s", {"cubic meter per second", "cubic meters per second"} },	-- volumetric flow
		["mi"]		=	{ "mi", {"mile", "miles"} },	-- length
		["mi2"]		=	{ "mi<sup>2</sup>", {"square mile", "square miles"} },	-- area
		["mi3"]		=	{ "mi<sup>3</sup>", {"cubic mile", "cubic miles"} },	-- volume
		["min"]		=	{ "min", {"minute", "minutes"} },	-- time
		["mm2"]		=	{ "mm<sup>2</sup>", {"square millimeter", "square millimeters"} },	-- area
		["mm3"]		=	{ "mm<sup>3</sup>", {"cubic millimeter", "cubic millimeters"} },	-- volume
		["mo"]		=	{ "mo", {"month", "months"} },	-- time
		["mol"]		=	{ "mol", {"mole", "moles"} },	-- amount of substance
		["mol/m3"]	=	{ "mol/m<sup>3</sup>", {"mole per cubic meter", "moles per cubic meter"} },	-- molarity, amount of substance concentration
		["molpm3"]	=	{ "mol/m<sup>3</sup>", {"mole per cubic meter", "moles per cubic meter"} },	-- molarity, amount of substance concentration
		["mol−1"]	=	{ "mol&minus;1", {"reciprocal mole", "reciprocal moles"} },	-- Avogadro constant
		["mpm3"]	=	{ "m/m<sup>3</sup>", {"meter per cubic meter", "meters per cubic meter"} },	-- fuel efficiency
		["mps"]		=	{ "m/s", {"meter per second", "meters per second"} },	-- speed, velocity
		["mps2"]	=	{ "m/s<sup>2</sup>", {"meter per second squared", "meters per second squared"} },	-- acceleration
		["mps3"]	=	{ "m/s<sup>3</sup>", {"meter per second cubed", "meters per second cubed"} },	-- jerk, jolt
		["mps4"]	=	{ "m/s<sup>4</sup>", {"meter per second to the fourth", "meters per second to the fourth"} },	-- snap, jounce
		["m−1"]		=	{ "m&minus;1", {"reciprocal meter", "reciprocal meters"} },	-- wavenumber, optical power, curvature, spatial frequency
		["nbar"]	=	{ "nbar", {"nanobar", "nanobars"} },	-- pressure
		["nm"]		=	{ "nm", {"nanometer", "nanometers"} },	-- length
		["nm/h"]	=	{ "nm/h", {"nanometer per hour", "nanometers per hour"} },	-- speed, velocity
		["nm/s"]	=	{ "nm/s", {"nanometer per second", "nanometers per second"} },	-- speed, velocity
		["nm2"]		=	{ "nm<sup>2</sup>", {"square nanometer", "square nanometers"} },	-- area
		["nm3"]		=	{ "nm<sup>3</sup>", {"cubic nanometer", "cubic nanometers"} },	-- volume
		["nmi"]		=	{ "nmi", {"nautical mile", "nautical miles"} },	-- length
		["nmph"]	=	{ "nm/h", {"nanometer per hour", "nanometers per hour"} },	-- speed, velocity
		["nmps"]	=	{ "nm/s", {"nanometer per second", "nanometers per second"} },	-- speed, velocity
		["npa"]		=	{ "nPa", {"nanopascal", "nanopascals"} },	-- pressure, stress
		["ns"]		=	{ "ns", {"nanosecond", "nanoseconds"} },	-- time
		["oz"]		=	{ "oz", {"ounce", "ounces"} },	-- mass
		["pa"]		=	{ "Pa", {"pascal", "pascals"} },	-- pressure, stress
		["pas"]		=	{ "Pa&sdot;s", {"pascal-second", "pascal-seconds"} },	-- dynamic viscosity
		["pa−1"]	=	{ "Pa&minus;1", {"reciprocal pascal", "reciprocal pascals"} },	-- compressibility
		["pm2"]		=	{ "pm<sup>2</sup>", {"square picometer", "square picometers"} },	-- area
		["pm3"]		=	{ "pm<sup>3</sup>", {"cubic picometer", "cubic picometers"} },	-- volume
		["ppm"]		=	{ "ppm", {"part per million", "parts per million"} },	-- quantity
		["psi"]		=	{ "psi", {"pound per square inch", "pounds per square inch"} },	-- pressure
		["pt"]		=	{ "pt", {"pint", "pints"} },	-- fluid volume
		["qt"]		=	{ "qt", {"quart", "quarts"} },	-- fluid volume
		["rad"]		=	{ "rad", {"radian", "radians"} },	-- angle
		["rad/s"]	=	{ "rad/s", {"radian per second", "radians per second"} },	-- angular velocity
		["rad/s2"]	=	{ "rad/s<sup>2</sup>", {"radian per second squared", "radians per second squared"} },	-- angular acceleration
		["radps"]	=	{ "rad/s", {"radian per second", "radians per second"} },	-- angular velocity
		["radps2"]	=	{ "rad/s<sup>2</sup>", {"radian per second squared", "radians per second squared"} },	-- angular acceleration
		["s"]		=	{ "s", {"second", "seconds"} },	-- time
		["sr"]		=	{ "sr", {"steradian", "steradians"} },	-- solid angle
		["sv"]		=	{ "Sv", {"sievert", "sieverts"} },	-- equivalent dose (of ionizing radiation)
		["tbar"]	=	{ "Tbar", {"terabar", "terabars"} },	-- pressure
		["tbsp"]	=	{ "tbsp", {"tablespoon", "tablespoons"} },	-- fluid volume
		["tm"]		=	{ "Tm", {"terameter", "terameters"} },	-- length
		["tm/h"]	=	{ "Tm/h", {"terameter per hour", "terameters per hour"} },	-- speed, velocity
		["tm/s"]	=	{ "Tm/s", {"terameter per second", "terameters per second"} },	-- speed, velocity
		["tm2"]		=	{ "Tm<sup>2</sup>", {"square terameter", "square terameters"} },	-- area
		["tm3"]		=	{ "Tm<sup>3</sup>", {"cubic terameter", "cubic terameters"} },	-- volume
		["tmph"]	=	{ "Tm/h", {"terameter per hour", "terameters per hour"} },	-- speed, velocity
		["tmps"]	=	{ "Tm/s", {"terameter per second", "terameters per second"} },	-- speed, velocity
		["tpa"]		=	{ "TPa", {"terapascal", "terapascals"} },	-- pressure, stress
		["ts"]		=	{ "Ts", {"terasecond", "teraseconds"} },	-- time
		["tsp"]		=	{ "tsp", {"teaspoon", "teaspoons"} },	-- fluid volume
		["ubar"]	=	{ "&mu;bar", {"microbar", "microbars"} },	-- pressure
		["um"]		=	{ "&mu;m", {"micrometer", "micrometers"} },	-- length
		["um/h"]	=	{ "&mu;m/h", {"micrometer per hour", "micrometers per hour"} },	-- speed, velocity
		["um/s"]	=	{ "&mu;m/s", {"micrometer per second", "micrometers per second"} },	-- speed, velocity
		["um2"]		=	{ "&mu;m<sup>2</sup>", {"square micrometer", "square micrometers"} },	-- area
		["um3"]		=	{ "&mu;m<sup>3</sup>", {"cubic micrometer", "cubic micrometers"} },	-- volume
		["umph"]	=	{ "&mu;m/h", {"micrometer per hour", "micrometers per hour"} },	-- speed, velocity
		["umps"]	=	{ "&mu;m/s", {"micrometer per second", "micrometers per second"} },	-- speed, velocity
		["upa"]		=	{ "&mu;Pa", {"micropascal", "micropascals"} },	-- pressure, stress
		["us"]		=	{ "&mu;s", {"microsecond", "microseconds"} },	-- time
		["v"]		=	{ "V", {"volt", "volts"} },	-- voltage, electrical potential difference, electromotive force
		["v/m"]		=	{ "V/m", {"volt per meter", "volts per meter"} },	-- electric field strength
		["vpm"]		=	{ "V/m", {"volt per meter", "volts per meter"} },	-- electric field strength
		["w"]		=	{ "w", {"week", "weeks"} },	-- time
		["wb"]		=	{ "Wb", {"weber", "webers"} },	-- magnetic flux
		["wb/m"]	=	{ "Wb/m", {"weber per meter", "webers per meter"} },	-- magnetic vector potential
		["wbm"]		=	{ "Wb&sdot;m", {"weber meter", "weber meters"} },	-- magnetic moment
		["wbpm"]	=	{ "Wb/m", {"weber per meter", "webers per meter"} },	-- magnetic vector potential
		["wk"]		=	{ "wk", {"week", "weeks"} },	-- time
		["y"]		=	{ "y", {"year", "years"} },	-- time
		["yd"]		=	{ "yd", {"yard", "yards"} },	-- length
		["yd2"]		=	{ "yd<sup>2</sup>", {"square yard", "square yards"} },	-- area
		["yd3"]		=	{ "yd<sup>3</sup>", {"cubic yard", "cubic yards"} },	-- volume
		["ym2"]		=	{ "ym<sup>2</sup>", {"square yoctometer", "square yoctometers"} },	-- area
		["ym3"]		=	{ "ym<sup>3</sup>", {"cubic yoctometer", "cubic yoctometers"} },	-- volume
		["yr"]		=	{ "yr", {"year", "years"} },	-- time
		["zm2"]		=	{ "zm<sup>2</sup>", {"square zeptometer", "square zeptometers"} },	-- area
		["zm3"]		=	{ "zm<sup>3</sup>", {"cubic zeptometer", "cubic zeptometers"} },	-- volume
	}
}