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 capacitor of capacitance 2 mu F is connected in the tank circuit of an oscillator oscillating with a frequency of 1 kHz. If the current flowing in the circuit is 2 mA , the voltage across the capacitor will be

A 30 mu F capacitor is connected to a 150 V, 60 Hz ac supply. The rms value of current in the circuit is

A capacitor of capacitance 100 muF and a coil of resistance 50 Omega and inductance 0.5 H are connected in series with a 110 V, 50 Hz AC source. Find the rms value of the current.

If a capacitor of 8 mu F is connected to a 220 V, 100 Hz ac source and the current passing through it is 65 mA, then the rms voltage across it is

(a) In a series L-C-R circuit with an AC source, R = 300 Omega , C = 20 muF, L= 1.0 H, V_(0) = 50sqrt2V and f = 50/pi Hz . Find (i) the rms current in the circuit and (ii) the rms voltage across each element. (b) Consider the situatiuon of the previous part. find the average electric field energy stored in the capacitor and the average magnetic field energy stored iun the coil .

A capacitor is connected to a variable source of potential. Current flowing in the circuit and potential across the plates of capacitor at time t are shown in figure. At t = 2s , energy is stored in the capacitor at a rate of

What is the impedance of a capacitor of capacitance C in an ac circuit using source of frequency in Hz?

An ac source of 50 V (r.m.s value) is connected across a series R - C circuit. If the r.m.s voltage across the resistor is 40 V, then the r.m.s voltage across the capacitor is

A resistor of 200 Omega and a capacitor of 15.0muF are connected in series to a 220V , 50Hz source. (a) Calculate the current in the circuit . (b) Calcutalte the voltage (rms) across the resistor and the inductor. Is the algebraic sum of these voltages more than the source voltage? If yes, resolve the paradox.

A capacitor of capacitance 25muF is charged to 300V . It is then connected across a 10mH inductor. The resistance in the circuit is negligible. a. Find the frequency of oscillation of the circuit. b. Find the potential difference across capacitor and magnitude of circuit current 1.2ms after the inductor and capacitor are connected. c. Find the magnetic energy and electric energy at t=0 and t=1.2ms .