In a circuit, 10 C of charge is passed through a battery in a given time. The plates of the battery are maintained at a potential difference of 12 V. How much work is done by the battery?.

In the given circuit, the current through the battery is

In the circuit shown, calculate the current through 6V battery

How much work is done in moving a charge of 2 C across two points having a potential difference of 12 V ?

In the given circuit, what is the current (in A) through the battery?

Assertion : Potential difference across the terminals of a battery is always less than the emf of the battery. Reason : During discharging of a battery potential differnce across to terminals of a battery is V = E -ir therefore V lt E

The internal resistance of an accumulator battery of emf 6V is 10(Omega) when it is fully discharged,As the battery gets charged up.its internal resistance decreases to 1(Omega) The battery in its completely discharged state is connected to a charger which maintains a constant potential difference of 9 V.Find the current through the battery (a)just after the connections are made and (b) after a long time when it is completely charged.

In the circuit shown in the adjacent figure, the batteries are ideal. The charge on the capacitor C is

Charges Q_0 and 2Q_0 are given to parallel plates A and B, respectively, and they are separated by a small distance. The capacitance of the given arrangement is C. Now, plates A and B are connected to positive and negative terminals of battery of potential difference V = 2Q_0//C respectively, as shown, then the work done by the battery is

In the circuit shown in figure switch S is closed at time t=0 . The charge which passes through the battery in one time constant is

The potential difference across the terminals of a battery is 10 V when there is a current of 3 A in the battery from the negative to the positive terminal. When the current is 2A in the reverse direction, the potential difference becomes 15 V. The internal resistance of the battery is