A capacitor of capacitance `12.0 muF` is joined to an AC source of frequency 200 Hz.The rms current in the circuit is 2.00 A. Find the rms voltage (in volt) across the capacitor.

A capacitor of capacitance 12.0 muF is joined to an AC source of frequency 200 Hz . The rms current in the circuit is 2.00 A . (a) Find the rms voltage across the capacitor. (b) Find the average energy stored in the electric field between the plates of the capacitor.

A resistor of resistance 400 ohm and a capacitor of reactance 200 ohm are connected in series ot a 200 V, 50 Hz source. If the current in the circuit is 0.49 A, find the voltage across the resistor and capacitor. What is the value of inductance required so that ane current are in phase ?

A resistor, a capacitor of 100 muF capacitance and an inductor are in series with on AC source of frequency 50Hz. If the current in the circuit is in phase with the applied voltage. The inductance of the inductor is

Resistor of resistance R and capacitor of capacitance C are connected in series to an AC source of angular frequency omega . Rms current in the circuit is I. When frequency of the source is changed to one - third of initial value keeping the voltage same then current is found to be halved. Find the ratio of reactance of capacitor to that with resistance at the original frequency omega .

A resistor 10Ω, a capacitor of 100 muF capacitance and an inductor are in series with on AC source of frequency 50Hz. If the current in the circuit is in phase with the applied voltage. The inductance of the inductor is

A paralle plate capacitor of capacitance 0.2 muF is connected across an a.c. source of angular frequency 500 rad s^-1 . The value of conduction current is 2mA. What is the rms value of the voltage from the source? What is the displacement current across the capacitor plates?

A 6 mu F capacitor is connected to an AC source of frequency 100 Hz . Calculate the rms value of voltage if current in the circuit is 1.2 A. Also calculate the average energy stored in the capacitor.

An a.c. source generating a voltage v=v+(m) sin omega t is connected to a capacitor of capacitor of capacitance C. Find the expression for the current, I, flowing through it. Plot a graph of v and I versus omega t to show that the current is pi//2 ahead of the voltage. A resistor of 200 Omega and a capacitor of 15.0 mu F are connected in series to a 220 V, 50 Hz a.c. source. Calculate the current in the circuit and the rms voltage across the resistor and the capacitor. Is the algebraic sum of these voltages more than the source voltages ? If yes, resolve the paradox.

A capacitor of capacitance 10 muF is connected to a 220 V , 30 Hz alternating current source . Calculate the peak value of voltage across the capacitor . Also calculate the rms value of current in the circuit .

A 3 mu F capacitor is connected to a 220 V, 50 Hz a.c. source. Calculate the rms value of current through the circuit. Also, find the peak value of voltage across the capacitor.