Four capacitors of capacitance `10 mu F` and a battery of 2V are arranged as shown. How much `mu C` charge will flow through AB after the switch S is closed ?

Three large plates are arranged as shown. How much charge will flow through the key k if it is closed?

Three large plates are arranged as shown. How much charge will flow through the key k if it is closed?

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

Six capacitors each of capacitance 'C' is connected as shown in the figure and initially all the capacitors are uncharged . Now a battery of emf = epsilon is connected. How much charge will flow through the battery if the switch is on :

The flow of charge through switch S if it is closed is

Three capacitors each of capacitance C = 2muF are connected with a battery of emf 30 V as shown in the figure . When the switch S is closed , the heat generated in the circuit will be

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 circuit consisting of two capacitors having capacitances 3 mu F and 6 mu F and an ideal battery of emf e = 4 volts as shown. The switch S is open for a long time and then closed. After the switch is closed. The work done by the battery is :

What charges will flow through A,B and C in the direction shown in the figure when switch S is closed?

An uncharged capacitor of capacitance 100 mu F is connected to a battery of emf 20V at t = 0 through a resistance 10 Omega , then (i) the maximum rate at which energy is stored in the capacitor is :