Current and voltage in AC are I = `underset(o)(I)` sin (`omega`t + `pi`/4) and V = `underset(o)(V)` sin (`omega`t - `pi`/4), Then

Two coils have a mutual inductance 0.005 H. The alternating current changes in the first coil according to equation I = underset(o)(I) sin omega t, where underset(o)(I) = 10 A and omega = 100 pi rads^(-1) . The maximum value of emf in the second coil is (in volt)

The instantaneous values of current and voltage in an AC circuit are given by l = 6sin ( 100 pi t + pi / 4) V = 5sin ( 100 pi t - pi / 4 ), then

An alternating potential V = underset(o)(V) sin omega t is applied across a circuit. As a result the current, I = underset(o)(I)sin(omegat - pi/2) flows in it. The power consecutive in the circuit per cycle is

At time t = 0 , terminal A in the circuit shown in the figure is connected to B by a key and alternating current I(t) = underset(o)(I) cos( omega t), with underset(o)(I) = 1 A and omega = 500 rad s^(-1) starts flowing in it with the initial direction shown in the figure . At t = 7pi / 6omega , the keys is switched from B to D . Now onwards only A and D are connected . A total charge Q flows from the battery to charge the capacitor fully. If C = 20 mu , R = 10 Omega and the battery is deal with emf of 50 V , identify the correct statement(s).

In a circuit, the instantaneous values of alternating current and voltages in a circuit is given by I = (1)/(sqrt2) sin (100 pi t) A and E = (1)/(sqrt2) sin (100 pi t + (pi)/(3)) V . The average power in watts consumed in the circui is

The equation of an alternating voltage is E = 220 sin (omega t + pi // 6) and the equation of the current in the circuit is I = 10 sin (omega t - pi // 6) . Then the impedance of the circuit is

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

Voltage applied to an AC circuit and current flowing in it is given by V=200sqrt2sin(omegat+pi/4) and i=-sqrt2cos(omegat+pi/4) Then, power consumed in the circuited will be

Find the displacement equation of the simple harmonic motion obtained by combining the motion. x_(1) = 2sin omega t , x_(2) = 4sin (omega t + (pi)/(6)) and x_(3) = 6sin (omega t + (pi)/(3))

In an ac circuit the instantaneous values of current and applied voltage are respectively i=2(Amp) sin (250pis^(-1)t and epsi =(10V) sin [(250pis^(-1))t+(pi)/(3) , Find the instantaneous power drawn from the source at t=(2)/(3)ms and its average value.