other_units.hpp File Reference

Units not approved for use with SI. More...

#include "corsika/framework/units/quantity.hpp"

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Namespaces
	phys
	namespace phys.
	phys::units
	namespace units.

Variables
constexpr quantity< electric_current_d >	phys::units::abampere { Rep( 1e+1L ) * ampere }
constexpr quantity< electric_charge_d >	phys::units::abcoulomb { Rep( 1e+1L ) * coulomb }
constexpr quantity< capacitance_d >	phys::units::abfarad { Rep( 1e+9L ) * farad }
constexpr quantity< inductance_d >	phys::units::abhenry { Rep( 1e-9L ) * henry }
constexpr quantity< electric_conductance_d >	phys::units::abmho { Rep( 1e+9L ) * siemens }
constexpr quantity< electric_resistance_d >	phys::units::abohm { Rep( 1e-9L ) * ohm }
constexpr quantity< electric_potential_d >	phys::units::abvolt { Rep( 1e-8L ) * volt }
constexpr quantity< area_d >	phys::units::acre { Rep( 4.046873e+3L ) * square( meter ) }
constexpr quantity< volume_d >	phys::units::acre_foot { Rep( 1.233489e+3L ) * cube( meter ) }
constexpr quantity< length_d >	phys::units::astronomical_unit { Rep( 1.495979e+11L ) * meter }
constexpr quantity< pressure_d >	phys::units::atmosphere_std { Rep( 1.01325e+5L ) * pascal }
constexpr quantity< pressure_d >	phys::units::atmosphere_tech { Rep( 9.80665e+4L ) * pascal }
constexpr quantity< volume_d >	phys::units::barrel { Rep( 1.589873e-1L ) * cube( meter ) }
constexpr quantity< electric_current_d >	phys::units::biot { Rep( 1e+1L ) * ampere }
constexpr quantity< energy_d >	phys::units::btu { Rep( 1.05587e+3L ) * joule }
constexpr quantity< energy_d >	phys::units::btu_it { Rep( 1.055056e+3L ) * joule }
constexpr quantity< energy_d >	phys::units::btu_th { Rep( 1.054350e+3L ) * joule }
constexpr quantity< energy_d >	phys::units::btu_39F { Rep( 1.05967e+3L ) * joule }
constexpr quantity< energy_d >	phys::units::btu_59F { Rep( 1.05480e+3L ) * joule }
constexpr quantity< energy_d >	phys::units::btu_60F { Rep( 1.05468e+3L ) * joule }
constexpr quantity< volume_d >	phys::units::bushel { Rep( 3.523907e-2L ) * cube( meter ) }
constexpr quantity< energy_d >	phys::units::calorie { Rep( 4.19002L ) * joule }
constexpr quantity< energy_d >	phys::units::calorie_it { Rep( 4.1868L ) * joule }
constexpr quantity< energy_d >	phys::units::calorie_th { Rep( 4.184L ) * joule }
constexpr quantity< energy_d >	phys::units::calorie_15C { Rep( 4.18580L ) * joule }
constexpr quantity< energy_d >	phys::units::calorie_20C { Rep( 4.18190L ) * joule }
constexpr quantity< mass_d >	phys::units::carat_metric { Rep( 2e-4L ) * kilogram }
constexpr quantity< length_d >	phys::units::chain { Rep( 2.011684e+1L ) * meter }
constexpr quantity< thermal_insulance_d >	phys::units::clo { Rep( 1.55e-1L ) * square( meter ) * kelvin / watt }
constexpr quantity< pressure_d >	phys::units::cm_mercury { Rep( 1.333224e+3L ) * pascal }
constexpr quantity< volume_d >	phys::units::cord { Rep( 3.624556L ) * cube( meter ) }
constexpr quantity< volume_d >	phys::units::cup { Rep( 2.365882e-4L ) * cube( meter ) }
constexpr quantity< dimensions< 2, 0, 0 > >	phys::units::darcy { Rep( 9.869233e-13L ) * square( meter ) }
constexpr quantity< time_interval_d >	phys::units::day_sidereal { Rep( 8.616409e+4L ) * second }
constexpr quantity< dimensions< 1, 0, 1, 1 > >	phys::units::debye { Rep( 3.335641e-30L ) * coulomb * meter }
constexpr quantity< thermodynamic_temperature_d >	phys::units::degree_fahrenheit { Rep( 5.555556e-1L ) * kelvin }
constexpr quantity< thermodynamic_temperature_d >	phys::units::degree_rankine { Rep( 5.555556e-1L ) * kelvin }
constexpr quantity< dimensions< -1, 1, 0 > >	phys::units::denier { Rep( 1.111111e-7L ) * kilogram / meter }
constexpr quantity< force_d >	phys::units::dyne { Rep( 1e-5L ) * newton }
constexpr quantity< energy_d >	phys::units::erg { Rep( 1e-7L ) * joule }
constexpr quantity< electric_charge_d >	phys::units::faraday { Rep( 9.648531e+4L ) * coulomb }
constexpr quantity< length_d >	phys::units::fathom { Rep( 1.828804L ) * meter }
constexpr quantity< length_d >	phys::units::fermi { Rep( 1e-15L ) * meter }
constexpr quantity< length_d >	phys::units::foot { Rep( 3.048e-1L ) * meter }
constexpr quantity< energy_d >	phys::units::foot_pound_force { Rep( 1.355818L ) * joule }
constexpr quantity< energy_d >	phys::units::foot_poundal { Rep( 4.214011e-2L ) * joule }
constexpr quantity< length_d >	phys::units::foot_us_survey { Rep( 3.048006e-1L ) * meter }
constexpr quantity< illuminance_d >	phys::units::footcandle { Rep( 1.076391e+1L ) * lux }
constexpr quantity< illuminance_d >	phys::units::footlambert { Rep( 3.426259L ) * candela / square( meter ) }
constexpr quantity< time_interval_d >	phys::units::fortnight { Rep( 14 ) * day }
constexpr quantity< electric_charge_d >	phys::units::franklin { Rep( 3.335641e-10L ) * coulomb }
constexpr quantity< length_d >	phys::units::furlong { Rep( 2.01168e+2L ) * meter }
constexpr quantity< volume_d >	phys::units::gallon_imperial { Rep( 4.54609e-3L ) * cube( meter ) }
constexpr quantity< volume_d >	phys::units::gallon_us { Rep( 3.785412e-3L ) * cube( meter ) }
constexpr quantity< magnetic_flux_density_d >	phys::units::gamma { Rep( 1e-9L ) * tesla }
constexpr quantity< mass_d >	phys::units::gamma_mass { Rep( 1e-9L ) * kilogram }
constexpr quantity< magnetic_flux_density_d >	phys::units::gauss { Rep( 1e-4L ) * tesla }
constexpr quantity< electric_current_d >	phys::units::gilbert { Rep( 7.957747e-1L ) * ampere }
constexpr quantity< volume_d >	phys::units::gill_imperial { Rep( 1.420653e-4L ) * cube( meter ) }
constexpr quantity< volume_d >	phys::units::gill_us { Rep( 1.182941e-4L ) * cube( meter ) }
constexpr Rep	phys::units::gon { Rep( 9e-1L ) * degree_angle }
constexpr quantity< mass_d >	phys::units::grain { Rep( 6.479891e-5L ) * kilogram }
constexpr quantity< power_d >	phys::units::horsepower { Rep( 7.456999e+2L ) * watt }
constexpr quantity< power_d >	phys::units::horsepower_boiler { Rep( 9.80950e+3L ) * watt }
constexpr quantity< power_d >	phys::units::horsepower_electric { Rep( 7.46e+2L ) * watt }
constexpr quantity< power_d >	phys::units::horsepower_metric { Rep( 7.354988e+2L ) * watt }
constexpr quantity< power_d >	phys::units::horsepower_uk { Rep( 7.4570e+2L ) * watt }
constexpr quantity< power_d >	phys::units::horsepower_water { Rep( 7.46043e+2L ) * watt }
constexpr quantity< time_interval_d >	phys::units::hour_sidereal { Rep( 3.590170e+3L ) * second }
constexpr quantity< mass_d >	phys::units::hundredweight_long { Rep( 5.080235e+1L ) * kilogram }
constexpr quantity< mass_d >	phys::units::hundredweight_short { Rep( 4.535924e+1L ) * kilogram }
constexpr quantity< length_d >	phys::units::inch { Rep( 2.54e-2L ) * meter }
constexpr quantity< pressure_d >	phys::units::inches_mercury { Rep( 3.386389e+3L ) * pascal }
constexpr quantity< wave_number_d >	phys::units::kayser { Rep( 1e+2 ) / meter }
constexpr quantity< force_d >	phys::units::kilogram_force { Rep( 9.80665 ) * newton }
constexpr quantity< force_d >	phys::units::kilopond { Rep( 9.80665 ) * newton }
constexpr quantity< force_d >	phys::units::kip { Rep( 4.448222e+3L ) * newton }
constexpr quantity< volume_d >	phys::units::lambda_volume { Rep( 1e-9L ) * cube( meter ) }
constexpr quantity< illuminance_d >	phys::units::lambert { Rep( 3.183099e+3L ) * candela / square( meter ) }
constexpr quantity< heat_density_d >	phys::units::langley { Rep( 4.184e+4L ) * joule / square( meter ) }
constexpr quantity< length_d >	phys::units::light_year { Rep( 9.46073e+15L ) * meter }
constexpr quantity< magnetic_flux_d >	phys::units::maxwell { Rep( 1e-8L ) * weber }
constexpr quantity< electric_conductance_d >	phys::units::mho { siemens }
constexpr quantity< length_d >	phys::units::micron { micro * meter }
constexpr quantity< length_d >	phys::units::mil { Rep( 2.54e-5L ) * meter }
constexpr Rep	phys::units::mil_angle { Rep( 5.625e-2L ) * degree_angle }
constexpr quantity< area_d >	phys::units::mil_circular { Rep( 5.067075e-10L ) * square( meter ) }
constexpr quantity< length_d >	phys::units::mile { Rep( 1.609344e+3L ) * meter }
constexpr quantity< length_d >	phys::units::mile_us_survey { Rep( 1.609347e+3L ) * meter }
constexpr quantity< time_interval_d >	phys::units::minute_sidereal { Rep( 5.983617e+1L ) * second }
constexpr quantity< dimensions< -1, 0, 0, 1 > >	phys::units::oersted { Rep( 7.957747e+1L ) * ampere / meter }
constexpr quantity< mass_d >	phys::units::ounce_avdp { Rep( 2.834952e-2L ) * kilogram }
constexpr quantity< volume_d >	phys::units::ounce_fluid_imperial { Rep( 2.841306e-5L ) * cube( meter ) }
constexpr quantity< volume_d >	phys::units::ounce_fluid_us { Rep( 2.957353e-5L ) * cube( meter ) }
constexpr quantity< force_d >	phys::units::ounce_force { Rep( 2.780139e-1L ) * newton }
constexpr quantity< mass_d >	phys::units::ounce_troy { Rep( 3.110348e-2L ) * kilogram }
constexpr quantity< length_d >	phys::units::parsec { Rep( 3.085678e+16L ) * meter }
constexpr quantity< volume_d >	phys::units::peck { Rep( 8.809768e-3L ) * cube( meter ) }
constexpr quantity< mass_d >	phys::units::pennyweight { Rep( 1.555174e-3L ) * kilogram }
constexpr quantity< substance_permeability_d >	phys::units::perm_0C { Rep( 5.72135e-11L ) * kilogram / pascal / second / square( meter ) }
constexpr quantity< substance_permeability_d >	phys::units::perm_23C { Rep( 5.74525e-11L ) * kilogram / pascal / second / square( meter ) }
constexpr quantity< illuminance_d >	phys::units::phot { Rep( 1e+4L ) * lux }
constexpr quantity< length_d >	phys::units::pica_computer { Rep( 4.233333e-3L ) * meter }
constexpr quantity< length_d >	phys::units::pica_printers { Rep( 4.217518e-3L ) * meter }
constexpr quantity< volume_d >	phys::units::pint_dry { Rep( 5.506105e-4L ) * cube( meter ) }
constexpr quantity< volume_d >	phys::units::pint_liquid { Rep( 4.731765e-4L ) * cube( meter ) }
constexpr quantity< length_d >	phys::units::point_computer { Rep( 3.527778e-4L ) * meter }
constexpr quantity< length_d >	phys::units::point_printers { Rep( 3.514598e-4L ) * meter }
constexpr quantity< dynamic_viscosity_d >	phys::units::poise { Rep( 1e-1L ) * pascal * second }
constexpr quantity< mass_d >	phys::units::pound_avdp { Rep( 4.5359237e-1L ) * kilogram }
constexpr quantity< force_d >	phys::units::pound_force { Rep( 4.448222L ) * newton }
constexpr quantity< mass_d >	phys::units::pound_troy { Rep( 3.732417e-1L ) * kilogram }
constexpr quantity< force_d >	phys::units::poundal { Rep( 1.382550e-1L ) * newton }
constexpr quantity< pressure_d >	phys::units::psi { Rep( 6.894757e+3L ) * pascal }
constexpr quantity< energy_d >	phys::units::quad { Rep( 1e+15L ) * btu_it }
constexpr quantity< volume_d >	phys::units::quart_dry { Rep( 1.101221e-3L ) * cube( meter ) }
constexpr quantity< volume_d >	phys::units::quart_liquid { Rep( 9.463529e-4L ) * cube( meter ) }
constexpr Rep	phys::units::revolution { Rep( 2 ) * pi }
constexpr quantity< dimensions< 1, -1, 1 > >	phys::units::rhe { Rep( 1e+1L ) / pascal / second }
constexpr quantity< length_d >	phys::units::rod { Rep( 5.029210L ) * meter }
constexpr quantity< angular_velocity_d >	phys::units::rpm { Rep( 1.047198e-1L ) / second }
constexpr quantity< time_interval_d >	phys::units::second_sidereal { Rep( 9.972696e-1L ) * second }
constexpr quantity< time_interval_d >	phys::units::shake { Rep( 1e-8L ) * second }
constexpr quantity< mass_d >	phys::units::slug { Rep( 1.459390e+1L ) * kilogram }
constexpr quantity< electric_current_d >	phys::units::statampere { Rep( 3.335641e-10L ) * ampere }
constexpr quantity< electric_charge_d >	phys::units::statcoulomb { Rep( 3.335641e-10L ) * coulomb }
constexpr quantity< capacitance_d >	phys::units::statfarad { Rep( 1.112650e-12L ) * farad }
constexpr quantity< inductance_d >	phys::units::stathenry { Rep( 8.987552e+11L ) * henry }
constexpr quantity< electric_conductance_d >	phys::units::statmho { Rep( 1.112650e-12L ) * siemens }
constexpr quantity< electric_resistance_d >	phys::units::statohm { Rep( 8.987552e+11L ) * ohm }
constexpr quantity< electric_potential_d >	phys::units::statvolt { Rep( 2.997925e+2L ) * volt }
constexpr quantity< volume_d >	phys::units::stere { cube( meter ) }
constexpr quantity< illuminance_d >	phys::units::stilb { Rep( 1e+4L ) * candela / square( meter ) }
constexpr quantity< kinematic_viscosity_d >	phys::units::stokes { Rep( 1e-4L ) * square( meter ) / second }
constexpr quantity< volume_d >	phys::units::tablespoon { Rep( 1.478676e-5L ) * cube( meter ) }
constexpr quantity< volume_d >	phys::units::teaspoon { Rep( 4.928922e-6L ) * cube( meter ) }
constexpr quantity< dimensions< -1, 1, 0 > >	phys::units::tex { Rep( 1e-6L ) * kilogram / meter }
constexpr quantity< energy_d >	phys::units::therm_ec { Rep( 1.05506e+8L ) * joule }
constexpr quantity< energy_d >	phys::units::therm_us { Rep( 1.054804e+8L ) * joule }
constexpr quantity< mass_d >	phys::units::ton_assay { Rep( 2.916667e-2L ) * kilogram }
constexpr quantity< force_d >	phys::units::ton_force { Rep( 8.896443e+3L ) * newton }
constexpr quantity< mass_d >	phys::units::ton_long { Rep( 1.016047e+3L ) * kilogram }
constexpr quantity< heat_flow_rate_d >	phys::units::ton_refrigeration { Rep( 3.516853e+3L ) * watt }
constexpr quantity< volume_d >	phys::units::ton_register { Rep( 2.831685L ) * cube( meter ) }
constexpr quantity< mass_d >	phys::units::ton_short { Rep( 9.071847e+2L ) * kilogram }
constexpr quantity< energy_d >	phys::units::ton_tnt { Rep( 4.184e+9L ) * joule }
constexpr quantity< pressure_d >	phys::units::torr { Rep( 1.333224e+2L ) * pascal }
constexpr quantity< magnetic_flux_d >	phys::units::unit_pole { Rep( 1.256637e-7L ) * weber }
constexpr quantity< time_interval_d >	phys::units::week { Rep( 604800L ) * second }
constexpr quantity< length_d >	phys::units::x_unit { Rep( 1.002e-13L ) * meter }
constexpr quantity< length_d >	phys::units::yard { Rep( 9.144e-1L ) * meter }
constexpr quantity< time_interval_d >	phys::units::year_sidereal { Rep( 3.155815e+7L ) * second }
constexpr quantity< time_interval_d >	phys::units::year_std { Rep( 3.1536e+7L ) * second }
constexpr quantity< time_interval_d >	phys::units::year_tropical { Rep( 3.155693e+7L ) * second }

Detailed Description

Units not approved for use with SI.

Author

Michael S. Kenniston

Date

16 July 2001

Since

0.4

Copyright 2013 Universiteit Leiden. All rights reserved.

Copyright (c) 2001 by Michael S. Kenniston. For the most recent version check www.xnet.com/~msk/quantity. Permission is granted to use this code without restriction so long as this copyright notice appears in all source files.

This code is provided as-is, with no warrantee of correctness.

Distributed under the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)

Definition in file other_units.hpp.