Consider the circuit shown in figure. The oscillating source of emf deliver a sinusoidal emf of amplitude `e_(max)` and frequency `omega` to the inductor L and two capacitors `C_(1)" to "C_(2)`. Find the maximum instantaneous current in each capacitor.

In the circuit shown the capacitors are C_(1)=15muF, C_(2)=10muF and C_(3)=25 muF . Find the charge on each capacitor and

Find currents I_(1),I_(2) and I_(3) and the energy stored in the capacitors C_(1) and C_(2) in the circuit shown in figure.

In the circuit shown in figure find: a. the current in the 3.00 Omega resistor,b. the unknown emfs E_1 and E_2 and c the resistance R .

Two capacitors C_(1) and C_(2) are connected to a battery of 6 V as shown in Fig. Find the charge on each capacitor.

In the circuit shown in fig. potential diff. across L, C and and R are given. Find the e.m.f. of the source and calculate power factor of the circuit.

An L-C circuit consists of a 20.0 mH inductor and a 0.5 muF capacitor. If the maximum instantaneous current is 0.1 A , what is the greatest potential difference across the capacitor?

An L-C circuit consists of an inductor coil withh L=50.0mH and 20.0muF capacitor. There is negligible resistance in the circuit. The circuit is driven by a voltage source with V=V_0cosomegat . If V_0=5.00mV and the frequency is twice the resonance frequency, determine. a. the maximum charge on the capacitor. b. the maximum current in the circuit. c. the phase relationship between the voltages across the inductor, the capacitor and the sourse.

In the circuit shown in figure, E_1 and E_2 are two ideal sources of unknown emfs. Some currents are shown. Potential difference appearing across 6Omega resistance is V_(A) - V_(B) = 10V.

Initially, the capacitor is charged to a potential of 5 V and then connected to position 1 with the shown polarity for 1 s . After 1s it is connected across the inductor at position 2 (a) Find the potential across the capacitor after 1 s of its connection to position 1. (b) Find the maximum current flowing in the L- C circuit when capacitor is connected across the inductor. Also, find the frequency of LC oscillations.

An inductor has a resistance R and inductance L .It is connected to an A.C source of e.m.f E_(v) and angular frequency omega , then the current I_(v) in the circuit is