In a circuit consisting of a capacitance and a generator with alternating emf `E_(g) = E_(g_0) sin omegat , ` V_C` and `I_C` are the voltage and current. Correct phasor diagram for such circuit is :

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

The alternating emf of e=e_(0) sin omegat is applied across LR series circuit. The impedance and phase angle between current and voltage is

A circuit with capacitance C and inductance L generates free damped oscillations with current varying with time as I=I_(m)e^(-betat) sin omegat . Find the voltage across the capacitor as a function of time, and in particular, at the moment t=0 .

A capacitor of capacity C is connected in A.C circuit. If the applied emf is V = V_(0) sin omega t , then the current is

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

A circuit consists of a resistance 10 ohm and a capacitance of 0.1 mu F If an alternating e.m.f. of 100 V. 50 Hz is applied, calculate the current in the circuit.

If an alternating current i = i_(m) sin omegat is flowing through a capacitor then voltage drop Delta V_(C) across capacitor C will be

A circuit consisting of a capacitor with capacitance C and a resistance R connected in series was connected at the moment t=0 to a source of ac voltage V=V_(m) cos omegat . Find the current in the circuit as a function of time t .