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 ?

Four capacitors of capacitance 10muF and a battery of 200V are arranged as shown. How much charge will flow through AB after the switch S is closed :

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 ?

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 connections shown in figure are established with the switch S open. How much charge will flow through the switch if it is closed ? .

The connnections shown in figure are established with the swithc S open. How much charge will flow through the switch if it is closed?

Four uncharged capacitors are charged by 24V battery as shown in the figure. How much charge flows through switch S when it is closed?

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. .

Four capacitor and a battery of emf 24 V are connected as shown in the figure. Initially, S is open and the capacitors are uncharged. After S is closed and steady state is attained, the potential difference across the 4 mu f capacitor is 7.5 V . The capacitance in mu f of the capacitor A is. .

A capacitor of capacitance 100(mu)F is connected across a battery of emf6.0V through a resistance of 20k(Omega) for 4.0s after the battery is disconnecting?