/// <summary> /// Divides <paramref name="left"/> by <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="ElectricCharge"/> that is the result from the division.</returns> public static ElectricCharge operator /(MassFlow left, MagneticFieldStrength right) { return(ElectricCharge.FromCoulombs(left.kilogramsPerSecond / right.teslas)); }
/// <summary> /// Divides <paramref name="left"/> by <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="ElectricCharge"/> that is the result from the division.</returns> public static ElectricCharge operator /(Energy left, Voltage right) { return(ElectricCharge.FromCoulombs(left.joules / right.volts)); }
/// <summary> /// Multiplies <paramref name="left"/> with <paramref name="right"/> /// </summary> /// <param name="left">The left value</param> /// <param name="right">The right value</param> /// <returns>The <see cref="ElectricCharge"/> that is the result from the multiplication.</returns> public static ElectricCharge operator *(Capacitance left, Voltage right) { return(ElectricCharge.FromCoulombs(left.farads * right.volts)); }
public static ElectricCharge operator *(ElectricalConductance left, MagneticFlux right) { return(ElectricCharge.FromCoulombs(left.siemens * right.webers)); }
public static ElectricCharge operator /(Current left, Frequency right) { return(ElectricCharge.FromCoulombs(left.amperes / right.hertz)); }
public static ElectricCharge operator *(Current left, Time right) { return(ElectricCharge.FromCoulombs(left.amperes * right.seconds)); }
public static ElectricCharge operator /(MagneticFlux left, Resistance right) { return(ElectricCharge.FromCoulombs(left.webers / right.ohms)); }