public SpecificHeatCapacity WithCounterUnit(EnergyMassDensityUnit newUnit) { // generator : FractionValuesGenerator.Add_WithCounterUnit var oldUnit = Unit.CounterUnit; if (oldUnit == newUnit) { return(this); } var oldFactor = GlobalUnitRegistry.Factors.GetThrow(oldUnit); var newFactor = GlobalUnitRegistry.Factors.GetThrow(newUnit); var resultUnit = Unit.WithCounterUnit(newUnit); return(new SpecificHeatCapacity(oldFactor / newFactor * Value, resultUnit)); }
/// <summary> /// Multiplication operation /// </summary> /// <param name="specificHeatCapacity">left factor (multiplicand)</param> /// <param name="deltaKelvinTemperature">rigth factor (multiplier)</param> public static EnergyMassDensity operator *(SpecificHeatCapacity specificHeatCapacity, DeltaKelvinTemperature deltaKelvinTemperature) { // generator : MultiplyAlgebraGenerator.CreateCodeForLeftFractionValue // EnergyMassDensity operator *(SpecificHeatCapacity specificHeatCapacity, DeltaKelvinTemperature deltaKelvinTemperature) // scenario with hint // .Is<SpecificHeatCapacity, DeltaKelvinTemperature, EnergyMassDensity>("*") // hint location Add_EnergyMassDensity_DeltaKelvinTemperature_SpecificHeatCapacity, line 16 var specificHeatCapacityUnit = specificHeatCapacity.Unit; var tmp1 = specificHeatCapacityUnit.CounterUnit; var resultUnit = new EnergyMassDensityUnit(tmp1.CounterUnit, tmp1.DenominatorUnit); var deltaKelvinTemperatureConverted = deltaKelvinTemperature.ConvertTo(specificHeatCapacityUnit.DenominatorUnit); var value = specificHeatCapacity.Value * deltaKelvinTemperatureConverted.Value; return(new EnergyMassDensity(value, resultUnit)); // scenario D1 }
public SpecificHeatCapacity(decimal value, EnergyMassDensityUnit counterUnit, KelvinTemperatureUnit denominatorUnit) { Value = value; Unit = new SpecificHeatCapacityUnit(counterUnit, denominatorUnit); }
public bool Equals(EnergyMassDensityUnit other) { return(CounterUnit.Equals(other.CounterUnit) && DenominatorUnit.Equals(other.DenominatorUnit)); }