#include "Rtypes.h"Go to the source code of this file.
Namespaces | |
| namespace | Munits |
Functions | |
| double | ToCelcius (double temperature) |
| Convert from Munits temperature to Celcius. | |
| double | ToKelvin (double temperature) |
| Convert from Munits temperature to Kelvin. | |
| double | ToFahrenheit (double temperature) |
| Convert from Munits temperature to Fahrenheit. | |
| double | FromCelcius (double degrees_celcius) |
| Convert from Celcius temperature to Munits. | |
| double | FromKelvin (double degrees_kelvin) |
| Convert from Kelvin temperature to Munits. | |
| double | FromFahrenheit (double degrees_fahrenheit) |
| Convert from Fahrenheit temperature to Munits. | |
Variables | |
| const Char_t *const | base_length_name = "meter" |
| const Double_t | meter = 1. |
| const Double_t | meter2 = meter*meter |
| const Double_t | meter3 = meter*meter*meter |
| const Double_t | millimeter = 0.001*meter |
| const Double_t | millimeter2 = millimeter*millimeter |
| const Double_t | millimeter3 = millimeter*millimeter*millimeter |
| const Double_t | centimeter = 10.*millimeter |
| const Double_t | centimeter2 = centimeter*centimeter |
| const Double_t | centimeter3 = centimeter*centimeter*centimeter |
| const Double_t | kilometer = 1000.*meter |
| const Double_t | kilometer2 = kilometer*kilometer |
| const Double_t | kilometer3 = kilometer*kilometer*kilometer |
| const Double_t | micrometer = 1.e-6 *meter |
| const Double_t | nanometer = 1.e-9 *meter |
| const Double_t | angstrom = 1.e-10*meter |
| const Double_t | fermi = 1.e-15*meter |
| const Double_t | inch = 2.54*centimeter |
| const Double_t | mil = 0.001*inch |
| const Double_t | foot = 12*inch |
| const Double_t | barn = 1.e-28*meter2 |
| const Double_t | millibarn = 1.e-3 *barn |
| const Double_t | microbarn = 1.e-6 *barn |
| const Double_t | nanobarn = 1.e-9 *barn |
| const Double_t | picobarn = 1.e-12*barn |
| const Double_t | nm = nanometer |
| const Double_t | micron = micrometer |
| const Double_t | mm = millimeter |
| const Double_t | mm2 = millimeter2 |
| const Double_t | mm3 = millimeter3 |
| const Double_t | cm = centimeter |
| const Double_t | cm2 = centimeter2 |
| const Double_t | cm3 = centimeter3 |
| const Double_t | m = meter |
| const Double_t | m2 = meter2 |
| const Double_t | m3 = meter3 |
| const Double_t | km = kilometer |
| const Double_t | km2 = kilometer2 |
| const Double_t | km3 = kilometer3 |
| const Double_t | radian = 1. |
| const Double_t | milliradian = 1.e-3*radian |
| const Double_t | degree = (3.14159265358979323846/180.0)*radian |
| const Double_t | steradian = 1. |
| const Double_t | rad = radian |
| const Double_t | mrad = milliradian |
| const Double_t | sr = steradian |
| const Double_t | deg = degree |
| const Char_t *const | base_time_name = "second" |
| const Double_t | second = 1. |
| const Double_t | nanosecond = 1.e-9 *second |
| const Double_t | millisecond = 1.e-3 *second |
| const Double_t | microsecond = 1.e-6 *second |
| const Double_t | picosecond = 1.e-12*second |
| const Double_t | hertz = 1./second |
| const Double_t | kilohertz = 1.e+3*hertz |
| const Double_t | megahertz = 1.e+6*hertz |
| const Double_t | minute = 60*second |
| const Double_t | hour = 60*minute |
| const Double_t | day = 24*hour |
| const Double_t | year = 365.2422*day |
| const Double_t | snowmass_year = 1.0E7*second |
| const Double_t | ns = nanosecond |
| const Double_t | s = second |
| const Double_t | ms = millisecond |
| const Char_t *const | base_mass_name = "kilogram" |
| const Double_t | kilogram = 1. |
| const Double_t | gram = 1.e-3*kilogram |
| const Double_t | milligram = 1.e-3*gram |
| const Double_t | tonne = 1000.*kilogram |
| const Double_t | kilotonne = 1000.*tonne |
| const Double_t | pound = 0.45359237*kilogram |
| const Double_t | kg = kilogram |
| const Double_t | g = gram |
| const Double_t | mg = milligram |
| const Double_t | kt = kilotonne |
| const Char_t *const | base_current_name = "Ampere" |
| const Double_t | ampere = 1. |
| const Double_t | milliampere = 1.e-3*ampere |
| const Double_t | microampere = 1.e-6*ampere |
| const Double_t | nanoampere = 1.e-9*ampere |
| const Char_t *const | base_charge_name = "Coulomb" |
| const Double_t | coulomb = ampere*second |
| const Double_t | e_SI = 1.602176462e-19 |
| const Double_t | eplus = e_SI*coulomb |
| const Double_t | femptocoloumb = coulomb*1e-15 |
| const Double_t | picocoloumb = coulomb*1e-12 |
| const Double_t | fC = femptocoloumb |
| const Double_t | pC = picocoloumb |
| const Double_t | c_light = 2.99792458e+8 * m/s |
| const Double_t | c_squared = c_light * c_light |
| const Double_t | c_2 = c_squared |
| const Double_t | c_4 = c_2 * c_2 |
| const Char_t *const | base_energy_name = "GeV" |
| const Double_t | electronvolt = 1.e-9 |
| const Double_t | kiloelectronvolt = 1.e-6 |
| const Double_t | megaelectronvolt = 1.e-3 |
| const Double_t | gigaelectronvolt = 1 |
| const Double_t | teraelectronvolt = 1.e+3 |
| const Double_t | petaelectronvolt = 1.e+6 |
| const Double_t | joule = kg*m*m/(s*s) |
| const Double_t | hep2baseEnergy = e_SI*1.e+9 |
| const Double_t | hep2baseMomentum = hep2baseEnergy / c_light |
| const Double_t | hep2baseMass = hep2baseEnergy / c_squared |
| const Double_t | eV = electronvolt |
| const Double_t | keV = kiloelectronvolt |
| const Double_t | MeV = megaelectronvolt |
| const Double_t | GeV = gigaelectronvolt |
| const Double_t | TeV = teraelectronvolt |
| const Double_t | PeV = petaelectronvolt |
| const Double_t | watt = joule/second |
| const Double_t | newton = joule/meter |
| const Double_t | hep_pascal = newton/m2 |
| const Double_t | bar = 100000*hep_pascal |
| const Double_t | atmosphere = 101325*hep_pascal |
| const Char_t *const | base_epotential_name = "volt" |
| const Double_t | volt = kg*m*m/(ampere*s*s*s) |
| const Double_t | kilovolt = 1.e+3*volt |
| const Double_t | megavolt = 1.e+6*volt |
| const Double_t | millivolt = 1.e-3*volt |
| const Double_t | microvolt = 1.e-6*volt |
| const Double_t | ohm = volt/ampere |
| const Double_t | farad = coulomb/volt |
| const Double_t | millifarad = 1.e-3*farad |
| const Double_t | microfarad = 1.e-6*farad |
| const Double_t | nanofarad = 1.e-9*farad |
| const Double_t | picofarad = 1.e-12*farad |
| const Double_t | weber = volt*second |
| const Char_t *const | base_bfield_name = "Tesla" |
| const Double_t | tesla = volt*second/meter2 |
| const Double_t | gauss = 1.e-4*tesla |
| const Double_t | kilogauss = 1.e-1*tesla |
| const Double_t | henry = weber/ampere |
| const Double_t | kelvin = 1. |
| const Double_t | standard_temperature = 273.15 |
| Triple point. | |
| const Double_t | mole = 1. |
| const Double_t | becquerel = 1./second |
| const Double_t | curie = 3.7e+10 * becquerel |
| const Double_t | gray = joule/kilogram |
| const Double_t | candela = 1. |
| const Double_t | lumen = candela*steradian |
| const Double_t | lux = lumen/meter2 |
| const Double_t | perCent = 0.01 |
| const Double_t | perThousand = 0.001 |
| const Double_t | perMillion = 0.000001 |
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Convert from Celcius temperature to Munits.
Definition at line 19 of file Munits.cxx. Referenced by Munits::FromFahrenheit(). 00020 {
00021 return degrees_celcius + standard_temperature;
00022 }
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Convert from Fahrenheit temperature to Munits.
Definition at line 29 of file Munits.cxx. References Munits::FromCelcius(). 00030 {
00031 return FromCelcius(5.0/9.0*(degrees_fahrenheit-32));
00032 }
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Convert from Kelvin temperature to Munits.
Definition at line 24 of file Munits.cxx. 00025 {
00026 return degrees_kelvin;
00027 }
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Convert from Munits temperature to Celcius.
Definition at line 9 of file Munits.cxx. Referenced by BDSwicCalibrator::CalibrateOne(), LossModule::Fill(), and Munits::ToFahrenheit(). 00010 {
00011 return temperature - standard_temperature;
00012 }
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Convert from Munits temperature to Fahrenheit.
Definition at line 14 of file Munits.cxx. References Munits::ToCelcius(). 00015 {
00016 return Munits::ToCelcius(temperature)*9.0/5.0 + 32.0;
00017 }
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Convert from Munits temperature to Kelvin.
Definition at line 4 of file Munits.cxx. 00005 {
00006 return temperature;
00007 }
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Definition at line 140 of file Munits.h. Referenced by DbiTableProxy::Query(), and DbiTableProxy::QueryOverlayCreationDate(). |
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Definition at line 209 of file Munits.h. Referenced by MajorityCurvature::CalcCombCurv(), MajorityCurvature::CalcCurv(), PulserGainFit::Fit(), and PulserPinScale::PulserPinScale(). |
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Definition at line 144 of file Munits.h. Referenced by main(). |
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Definition at line 192 of file Munits.h. Referenced by AlgSubShowerSR::CalculateEnergyVertexAngle(). |
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Triple point.
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1.3.9.1