In the figure shown an ideal alternative current (A,C) source of 10 Volt is connected. Find half of the total average power (in watts) given by the source to the circuit.

The total power dissipated in watts in the circuit shown here is

a p -n juction (D) shown in the figure can act an a rectifier An alternatting current source (V) is connected in the circuit The corrent (I ) in the resistor® can be shown by :

What is the amount of power delivered by the ac source in the circuit shown (in watts)

A capacitor C=2muF and an inductor with L = 10 H and coil resistance 5 Omega are in series in a circuit. When an alternating current of r.m.s. value 2 A flows in the circuit, the average power in watts in the circuit is

A p-n junction (D) shown in the figure can act as a rectifier. An alternating current source (V) is connected in the circuit. .

An AC source rated 100 V (rms) supplies a current of 10 A(rms) to a circuit. The average power delivered by the source

An LC source rated 100 V (rms) supplies a current of 10 A (rms) to a circuit. The average power delivered by the source

(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.