times
infix operator fun <TimeUnit : Time> ScientificValue<PhysicalQuantity.ElectricCurrent, Abampere>.times(time: ScientificValue<PhysicalQuantity.Time, TimeUnit>): DefaultScientificValue<PhysicalQuantity.ElectricCharge, Abcoulomb>
infix operator fun <TimeUnit : Time> ScientificValue<PhysicalQuantity.ElectricCurrent, Biot>.times(time: ScientificValue<PhysicalQuantity.Time, TimeUnit>): DefaultScientificValue<PhysicalQuantity.ElectricCharge, Abcoulomb>
infix operator fun <CurrentUnit : ElectricCurrent, TimeUnit : Time> ScientificValue<PhysicalQuantity.ElectricCurrent, CurrentUnit>.times(time: ScientificValue<PhysicalQuantity.Time, TimeUnit>): DefaultScientificValue<PhysicalQuantity.ElectricCharge, Coulomb>
infix operator fun ScientificValue<PhysicalQuantity.ElectricCurrent, Abampere>.times(flux: ScientificValue<PhysicalQuantity.MagneticFlux, Maxwell>): DefaultScientificValue<PhysicalQuantity.Energy, Erg>
infix operator fun ScientificValue<PhysicalQuantity.ElectricCurrent, Biot>.times(flux: ScientificValue<PhysicalQuantity.MagneticFlux, Maxwell>): DefaultScientificValue<PhysicalQuantity.Energy, Erg>
infix operator fun <FluxUnit : MagneticFlux, CurrentUnit : ElectricCurrent> ScientificValue<PhysicalQuantity.ElectricCurrent, CurrentUnit>.times(flux: ScientificValue<PhysicalQuantity.MagneticFlux, FluxUnit>): DefaultScientificValue<PhysicalQuantity.Energy, Joule>
infix operator fun ScientificValue<PhysicalQuantity.ElectricCurrent, Abampere>.times(inductance: ScientificValue<PhysicalQuantity.ElectricInductance, Abhenry>): DefaultScientificValue<PhysicalQuantity.MagneticFlux, Maxwell>
infix operator fun ScientificValue<PhysicalQuantity.ElectricCurrent, Biot>.times(inductance: ScientificValue<PhysicalQuantity.ElectricInductance, Abhenry>): DefaultScientificValue<PhysicalQuantity.MagneticFlux, Maxwell>
infix operator fun <InductanceUnit : ElectricInductance, CurrentUnit : ElectricCurrent> ScientificValue<PhysicalQuantity.ElectricCurrent, CurrentUnit>.times(inductance: ScientificValue<PhysicalQuantity.ElectricInductance, InductanceUnit>): DefaultScientificValue<PhysicalQuantity.MagneticFlux, Weber>
infix operator fun ScientificValue<PhysicalQuantity.ElectricCurrent, Abampere>.times(voltage: ScientificValue<PhysicalQuantity.Voltage, Abvolt>): DefaultScientificValue<PhysicalQuantity.Power, ErgPerSecond>
infix operator fun ScientificValue<PhysicalQuantity.ElectricCurrent, Biot>.times(voltage: ScientificValue<PhysicalQuantity.Voltage, Abvolt>): DefaultScientificValue<PhysicalQuantity.Power, ErgPerSecond>
infix operator fun <VoltageUnit : Voltage, ElectricCurrentUnit : ElectricCurrent> ScientificValue<PhysicalQuantity.ElectricCurrent, ElectricCurrentUnit>.times(voltage: ScientificValue<PhysicalQuantity.Voltage, VoltageUnit>): DefaultScientificValue<PhysicalQuantity.Power, Watt>
infix operator fun ScientificValue<PhysicalQuantity.ElectricCurrent, Abampere>.times(resistance: ScientificValue<PhysicalQuantity.ElectricResistance, Abohm>): DefaultScientificValue<PhysicalQuantity.Voltage, Abvolt>
infix operator fun ScientificValue<PhysicalQuantity.ElectricCurrent, Biot>.times(resistance: ScientificValue<PhysicalQuantity.ElectricResistance, Abohm>): DefaultScientificValue<PhysicalQuantity.Voltage, Abvolt>
infix operator fun <CurrentUnit : ElectricCurrent, ResistanceUnit : ElectricResistance> ScientificValue<PhysicalQuantity.ElectricCurrent, CurrentUnit>.times(resistance: ScientificValue<PhysicalQuantity.ElectricResistance, ResistanceUnit>): DefaultScientificValue<PhysicalQuantity.Voltage, Volt>