In an ac circuit `l=100 sin 200 pi t` . The time required for the current to achieve its peak value will be

In an AC circuit I=100sin 200pit . The time required for the current to achieve its peak value of will be

A resistance of 20 ohm is connected to a source of an alternating potential V = 200 cos (100 pi t) . The time taken by the current to change from its peak value to rms value alpha is

The equation of current in an ac circuit is I = 4 sin (100pit + pi//6) ampere. The current at the beginning (t = 0) will be –

In the Ac circuit, the current is expressed as / = 100 sin 200pit. In this circuit the current rises from zero to peak value in time

In an AC circuit of 100 Hz, the effective value of current is 6 A. Calculate (i) the peak value of current (ii) mean value of current over half cycle and (iii) value of current 1/ 500 s after it was zero .

The instantaneous value of current in an ac circuit is I = 2 sin (100pit + pi//3) A . The current at the beginning (t = 0) will be –

The equation of a.c. in a circuit is I = 50 sin 100 pi t . Find (i) frequency of a.c. (ii) mean value of a.c. over positive half cycle (iii) rms value of current and (iv) value of current 1//600s after it was zero.

The equation of a.c. in a circuit is I=50 sin 100 pi t . Find (i) frequency of a.c., (ii) mean value of a.c. over positive half cycle, (iii) rms value of current and (iv) the value of current 1//300 second after it was zero.

An alternating voltage v(t)=220sin100 pi t volt is applied to a purely resistive, load of 50Ω .The time taken for the current to rise from half of the peak value to the peak value is in milliampere.