In an AC circuit, voltage V = `V_(0)sin omegat` and inductor L is connected across the circuit. Then the instantaneous power will be

An ac source of voltage V=V_(m)sin omega t is connected across the resistance R as shown in figure. The phase relation between current and voltage for this circuit is

In a series LR circuit, the voltage drop across inductor is 8 volt and across resistor is 6 volt. Then voltage applied and power factor of circuit respectively are:

In an AC circuit with voltage V and current I , the power dissipated is

In series LCR circuit voltage drop across resistance is 8V, across inductor is 6V and across capacitor is 12V. Then

A circuit contains resistance R and an inductance L in series. An alternating voltage V=V_0sinomegat is applied across it. The currents in R and L respectively will be .

A circuit contains resistance R and an inductance L in series. An alternating voltage V=V_0sinomegat is applied across it. The currents in R and L respectively will be .

A small signal voltage V(t)=V_(0)sin omegat is applied across an ideal capacitor C :

In series LCR circuit R = 18 Omega and impedence is 33 Omega . An Vrms voltage 220 V is applied across the circuit . The true power consumed in AC circuit is

A 0.7 henry inductor is connected across a 120 V-60 Hz AC source. The current in the inductor will be very nearly

An alternating voltage E=E_0 sin omega t , is applied across a coil of inductor L. The current flowing through the circuit at any instant is