In the circuit shown here `C_(1) = 6muF, C2 = 3muF` and battery `B = 20V`. The Switch `S_(1)` is first closed. It is then opened and afterwards `S_(2)` is closed. What is the charge finally on `C_(2)`

In the circuit shown in, C_(1)=6 muF, C_(2)=3 muF , and battery B=20 V . The switch S_(1) is first closed. It is then opened, and S _(2) is closed. What is the final charge on C_(2) .

In the circuit shown in figure C_(1) =C_(2) = 2muF . Then charge stored in

The circuit shows in Fig. is in the steady state with switch S_(1) closed. At t = 0,S_(1) is opened and switch S_(2) is closed. a. Derive expression for the charge on capacitor C_(2) as a function of time. b. Determine the first instant t , when the energy in the inductor becomes one-third of that in the capacitor.

In the circuit shown, battery, ammeter , and voltmeter are ideal and the switch S is initially closed as shown. When switch S is opened

In the circuit shown, the capacitor is initially charged with a 12V battery, when switch S_(1) is open and switch S_(2) is closed. S_(1) is then closed and, at the same time, S_(2) is opened. The maximum value of current in the circuit is

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

In the circuit shown in figure C_(1)= 1mu F and C_(2) = 2 mu F . The capacitor C_(1) is charged to 100 V and the capacitor C_(2) is charged to 20 V . After charging then are connected as shown. When the switches S_(1),S_(2) and S_(3) are closed, the charged flowing through S_(1) is .

Figure shows a battery with emf 15 V in a circuit with R_1 = 30Omega, R_2 = 10 Omega, R_3 = 20 Omega and capacitance C = 10 muF . The switch S is initially in the open position and is then closed at time t= 0. What will be the fimal steady - state charge on capacitor?