(15 volts) x (10 Amps) = 150 watts
When an alternating voltage is applied to a purely resistive circuit, the resulting current is in phase with the voltage.
Impedance
The phase angle between voltage and current in a purely resistive circuit is zero. Voltage and current are in phase with each other.
ratio between true power and apparent power is called the power factor for a circuit Power factor =true power/apparent power also we conclude PF=power dissipated / actual power in pure resistive circuit if total resistance is made zero power factor will be zero
In a pure resistive circuit the voltage and current are in phase. In an inductive circuit they are fro zero to 180 degrees out of phase. If they are in phase the Power Factor is 1 and 180 degrees the PF is zero. The exact amount of the phase difference depends on the specific circuit.
When an alternating voltage is applied to a purely resistive circuit, the resulting current is in phase with the voltage.
this is the amount of voltage a circuit can hold.
The power factor of a purely resistive circuit is 1.0.
It is a resistive type of circuit.
An electric current through a resistive circuit can be increased by decreasing the resistive load or increasing the voltage of the circuit.
Impedance
The PF will increase
It does not contain unidirectional outputAnswerA purely resistive circuit is an 'ideal' circuit that contains resistance, but not inductance or capacitance.
The phase angle between voltage and current in a purely resistive circuit is zero. Voltage and current are in phase with each other.
That depends on the components in the circuit: resistive, reactive, nonlinear, etc.
The voltage before it is hooked up to a resistive load.
ratio between true power and apparent power is called the power factor for a circuit Power factor =true power/apparent power also we conclude PF=power dissipated / actual power in pure resistive circuit if total resistance is made zero power factor will be zero