The emf and current in a circuit are such that `E = E_(0) sin omega t` and `I = I_(0) sin (omega t - theta)`. This `AC` circuit contains

The instantaneous values of emf and the current in a series ac circuit are - E = Eo Sin omega t and l = lo sin (omega t + pi //3) respectively, then it is

The voltage and current in an a.c. circuit are given by E = 300 sin (omega t + pi//2) and I = 5 sin omega t . What is power factor of the circuit and power dissipated in each cycle ?

The power dissipated in alternating circuit with voltage e=e_(0) sin omegat and current I=I_(0)sin(omegat-phi) is

Electric field and magnetic filed are given as E = E_(0) sin(omega t-kx) and B = B_0 sin(omega t-kx) then select the correct option

In any AC circuit the emf (e) and the current (i) at any instant are given respectively by e= E_(0)sin omega t i=I_(0) sin (omegat-phi) The average power in the circuit over one cycle of AC is

If i_(1) = i_(0) sin (omega t), i_(2) = i_(0_(2)) sin (omega t + phi) , then i_(3) =