A 60 Hz AC voltage of 160 V impressed across an LR-circuit results in a current of 2A. If the power dissipation is 200 W, calculate the maximum value of the back emf (in volt) arising in the inductance.

In an AC circuit with voltage V and current I , the power dissipated is

An inductor of inductance 5 H is connected across an alternating power supply of 220 volts . The frequency of source is 50 Hz. Calculate the maximum value of curent in the inductor .

A coil is series with a 20muF capacitor across a 230V, 50Hz supply. The current taken by the circuit is 8A and the power consumed is 200W. Calculate the inductance of the coil if the current in the circuit is (a) leading (b) lagging

A resistor and an inductor are connected in series across an AC power supply . The value of current drawn from the source is 2 A . Calculate the net impedance of circuit if voltage across inductor and resistor are 100 V and 80 V respectively.

(a) Prove that the current flowing through an ideal inductor connected across a.c. source, lags the voltage in phase by pi/2 . (b) An inductor of self inductance 100 mH, and a bulb are connected in series with a.c. sources of rms voltage 10 V, 50 z. It is found that effective voltage of the circuit leads the current in phase by pi/4 . Calculate the inductance of the inductor used and average power dissipated in the circuit, if a current of 1 A flows in the circuit.

In the figure an A.C of rms voltage 200 volt is appled to the circuit containing diode and the capacitor and it is being rectified. The maximum potential across the capacitor C in volt will be