An alternating voltage `V = V_(0) sin omegat` is applied across a circuit. As a result, a current `I = I_(0) sin (omegat – p/2)` flows in it. The power consumed per cycle is

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

AC source represented as V = V_(0) sin omega t is applied to a circuit and current I = I_(0) sin (omega t + pi//2) is found to flow through the circuit . What will be average power consumed in the circuit ?

The alternating emf of e=e_(0) sin omegat is applied across capacitor C. the current through the circuit is given by

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

An alternating voltage is applied across the R-L combination V = 220 sin 120 t and the current I = 4 sin ( 120 t - 60^(@) ) develops. The power consumption is

An alternating voltage is applied across the R-L combination V = 220 sin 120 t and the current I = 4 sin ( 120 t - 60^(@) ) developes. The power consumption is