For the system shown in capacitance is `C` The left plate is given a charge `Q_(1)` and the is closed.
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Find the amount of charge that will flow through the battery before the steady state is achieved.

For the system shown in capacitance is C The left plate is given a charge Q_(1) and the is closed. . Find the charge appearing on the inner face of the left plate.

Find the current flowing through the battery in steady state?

Two large plates are given the charges as shown in figure. Now, the left plane is earthed. Find the amount of charge that will flow from the earth to the plate.

Three capacitors each having capacitance C=2 muF are connected with a battery of emf 30 V as shown in. when the switch S is closed, find a. the amount of charge flowing through the battery , b. the heat generated in the circuit, c. the energy supplied by the battery, d. the amount of charge flowing through the switch S. .

Consider the situation shown in the figure. The switch S is open for a long time and then closed and again steady state reached then (a) Find the charge flown through the battery after the switch S is closed. (b) Find the charge flown through the switch S from B to A. (c) Find the work done by the battery after the switch S is closed. (d) Find the change in energy stored in the system of capacitors. (e) Find the heat developed in the system after the switch S is closed.

In the following diagram that plates are conducting and are held parallel then amount of charge that flows through the switch after closing it is

Two identical parallel plate capacitors of capacitance C each are connected in series with a battery of emf, E as shown. If one of the capacitors is now filled with a dielectric of dielectric constant k, the amount of charge which will flow through the battery is (neglect internal resistance of the battery)

Four very large metal plates are given charges as shown in figure. The middle two are then connected through a wire. Find the charge that will flow through the wire.