The electric current in an `AC` circuit is given by `I=I_(0)sin omegat`.What is the time taken by the current to change from its maximum value to the `rms` value?

The electric current in a circuit is given by I = 3 sin omegat + 4 cos omegat. The rms current is

Current in an ac circuit is given by I= 3 sin omega t + 4 cos omega t, then

A resistance of 20 Omega is connected to a source of alternating current rated 110 V, 50 Hz . Find (a) the rms current, (b) the maximum instantaneous current in the resistor and (c) the time taken by the current to change from its maximum value to the rms value.

The alternating current in a circuit is given by I = 50sin314t . The peak value and frequency of the current are

The electric current in AC circuit is given by the relation i = 3sinomegat + 4cosomegat . The rms value of the current in the circuit in ampere is

The value of current I in the circuit will be

The electric current in a circuit is given by i=3t Here, t is in second and I in ampere. The rms current for the period to=0 to t=1 s is

The current 'i' in the given circuit is

The current (i) in the given circuit is

If instantaneous current in a circuit is given by I=(2+3 sin omegat) A, then the effective value of resulting current in the circuit is