Each of the uncharged capacitors in Fig 25-34 has a capacitance of `25.0 mu F`. A potential difference of V=750 V is established when the switch is closed . How many coulombs of charge then pass through meter A?

Two capacitor in Fig 25-37 has a capacitance of 30 mu F and is initially uncharged. The battery provides a potential difference of 120 V. After switch S is closed, how much charge will pass through it?

Each capacitor shown in figure has a capacitance of 5.0n mu F , The emf of the bettery is 50 V , How much charge will flow though AB if the swich S is closed ?

Find the energy stored in a capacitor of capacitance 100muF when it is charged to a potential difference of 20 V.

Six 1 mu F capacitors are so arranged that their equivalent capacitance is 0.70 mu F . If a potential difference of 600 volt is applied to the combination, what charge will appear on each capacitor ?

A capacitor is charged through a potential difference of 200V, when 0.1 C charge is stored in it. How much energy will it release, when it is discharge ?

In Fig. 25-7a switch S is closed to connect the uncharged capacitor of capacitance C = 0.25 mu F to the battery of potential difference V=12V. The lower capacitor plate has thickness L=0.50 cm and face area A= 2.0 times 10^-4 m^2 and it consists of copper in which the density of conduction electrons is n=8.49 times10^25 electrons/ m^3 . From what depth d within the plate (Fig.25-7b) must electrons move to the plate face as the capacitor becomes charged?

In the circuit shown in figure-3.345 the capacitor of capacitance C is charged to a potential difference V. The current in the circuit just after the closing of switch S is :

An uncharged capacitor of capacitance C is connected with a battery of EMF V and a resistance R. The switch is closed at t=0 . The time instant at which the current in the circuit is (V)/(4R) is t=