The instatanteous value of alternating current and voltages in a circuit are given as `i=1/(sqrt(2))sin(100pit)` ampere
`e=1/(sqrt(2)) sin (100pit+pi//3)` volt
The average power in watts consumed in the circuit is

The instantaneous values of alternating current and voltages in a circuit are given as [i=(1)/(sqrt(2))sin(100 pi t) ampere e=(1)/(sqrt(2))sin(100 pi t+pi/3) Volt.The average power in Watts consumed in the circuit is

In a circuit, the instantaneous values of alternating current and voltages in a circuit is given by I = (12)/(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

In an A.C. circuit the instantaneous values of e.m.f. And current are given by E=100 sin (200 t) volt and I=2 sin(200 t +(pi)/3) ampere. The average power consumed is the circuit is

In LCR series circuit , an alternating emf e and current i are given by the equations e = sin (100 t) volt . i=100 sin (100 t + (pi)/(3)) mA The average power dissipated in the circuit will be

The instantaneous values of current and voltage in an ac circuit are i=100 sin 314 r amp and e=200 sin (314 t+pi//3) V respectively. If the resistance is 1 Omega then the reactance of the circuit will be

Voltage and current is an AC circuit are given by V=sin(100pit-(pi)/6) and I=4sin(100pit+(pi)/6)

The equations of voltage and current in an A.C. circuit are e=100 sin (100t) volt and I=100sin[100t+(pi)/(2)]mA respectively. The average power lost in the circuit will be

An alternating voltage (in volts) varies with time t (in seconds) as V=200 sin(100pit)

The instantaneous values of current and voltage in an AC circuit are i=100sin314t amp and e=200sin(314t+pi//3)V respectively. If the resistance is 1Omega then the reactance of the circuit will be

In LCR series circuit, an alternating e.m.f. 'e' and current 'I' are given by the equations e=100sin(100t) volt and I=100sin(100t+(pi)/(3))mA The average power dissipated in the circuit will be