""" """ from __future__ import absolute_import from ..unitquantity import UnitQuantity from .force import dyne, N from .length import cm, m from .time import s, h J = joule = UnitQuantity( 'joule', N*m, symbol='J', aliases=['joules'] ) erg = UnitQuantity( 'erg', dyne*cm ) btu = Btu = BTU = british_thermal_unit = UnitQuantity( 'British_thermal_unit', J*1.05505585262e3, symbol='BTU' ) eV = electron_volt = UnitQuantity( 'electron_volt', J*1.60217653e-19, symbol='eV', aliases=['electron_volts'] ) meV = UnitQuantity( 'meV', eV/1000 ) keV = UnitQuantity( 'keV', 1000*eV ) MeV = UnitQuantity( 'MeV', 1000*keV ) bev = GeV = UnitQuantity( 'GeV', 1000*MeV ) thm = therm = EC_therm = UnitQuantity( 'EC_therm', 100000*BTU, symbol='thm' ) cal = calorie = thermochemical_calorie = UnitQuantity( 'thermochemical_calorie', 4.184*J, symbol='cal', aliases=['calorie', 'calories', 'thermochemical_calories'] ) international_steam_table_calorie = UnitQuantity( 'international_steam_table_calorie', J*4.1868, symbol='cal_IT', aliases=['international_steam_table_calories'] ) ton_TNT = UnitQuantity( 'ton_TNT', 4.184e9*J, symbol='tTNT' ) US_therm = UnitQuantity( 'US_therm', 1.054804e8*J, aliases=['US_therms'] ) Wh = watthour = watt_hour = UnitQuantity( 'watt_hour', J/s*h, symbol='Wh', aliases=['watthour', 'watthours', 'watt_hours'] ) kWh = kilowatthour = kilowatt_hour = UnitQuantity( 'kilowatt_hour', 1000*Wh, symbol='kWh', aliases=['kilowatthour', 'kilowatthours', 'kilowatt_hours'] ) MWh = megawatthour = megawatt_hour = UnitQuantity( 'megawatt_hour', 1000*kWh, symbol='MWh', aliases=['megawatthour', 'megawatthours', 'megawatt_hours'] ) GWh = gigawatthour = gigawatt_hour = UnitQuantity( 'gigawatt_hour', 1000*MWh, symbol='GWh', aliases=['gigawatthour', 'gigawatthours', 'gigawatt_hours'] ) E_h = hartree = hartree_energy = UnitQuantity( 'hartree', 4.35974394e-18*J, symbol='E_h', aliases=['hartrees', 'hartree_energy', 'Hartree_energy'], doc='relative uncertainty = 2.1e-6' ) del UnitQuantity, dyne, N, cm, m, s, h