In an A.C. circuit, V and `I` are given by `V = 150 sin (150t)` volt and `I = 150 sin (150t + pi/3)` ampere. The power dissipated in the circuit is

In an a.c. circuit, V and I are given by V = 100 sin (100t) volt I = 100 sin (100t + pi//3)mA Then the power dissipated in the circuit is

Find R if power dissipated in the circuit is 150 W

In a series LCR circuit , and alternating emf (v) and current (i) are given by the equation v=v_(0) sin omegat, i=i_(0)sin (omegat+(pi)/(3)) . The average power dissipated in the circuit over a cycle of AC is

A current I = I_0 sin (omega t + pi//2) flows in a circuit when an alternating voltage E = E_0 sin omegat is applied. The power consumed in the circuit is

A sinusoidal voltage of peak value 283 V and frequency 50 Hz is applied to a series LCR circuit in which R = 3Omega, L = 25.48 mH, and C = 796 muF . Find (a) the impedance of the circuit, (b) the phase difference between the voltage across the source and the current, (c) the power dissipated in the circuit, and (d) the power factor.

The average power dissipated in A.C. circuit is 2 watt. If a current flowing through a circuit is 2 A and impedance is 1 Omega , what is the power factor of the A.C. circuit ?

A resistor of 500 Omega , an inductance of 0.5 H are in series with an a.c. which is given by V = 100 sqrt2 sin (1000 t) . The power factor of the combination is