Find the potential difference across `C_2.`

In the circuit shown below the cell is ideal, with emf = 2 V: The resistance of the coil of the galvanometer G is 1 Omega . Then, find the potential difference across C_(1) (in volts), in steady state

In the network shown in given figure, find the potential difference across BD

In transferring 1.5 C charge through a wire, 9 J of work is needed. Find the potential difference across the wire.

In the given circuit diagram find the potential difference across 2 Omega resistance (in volts).

A current 0.2 A flows in a wire of resistance 15 Omega . Find the potential difference across the ends of the wire.

100 J of heat are produced each second in a 4 Omega resistance. Find the potential difference across the resistor.

Find the potential difference across each of the four batteries B_1, B_2, B_3 and B_4 as shown in the figure.

A voltmeter of resistance 994Omega is connected across a cell of emf 1 V and internal resistance 6Omega . Find the potential difference across the voltmeter, that across the terminals of the cell and percantage error in the reading of the voltmeter.

An inductor of inductance 20 mH is connected across a charged capacitor of capacitance 5 mu F & resulting L-C circuit is set oscillating at its natural frequency . The maximum charge q is 200 mu C on the capacitor . Find the potential difference across the inductor when the charge is 100 mu C .

Two capacitances of capacity C_(1) and C_(2) are connected in series and potential difference V is applied across it. Then the potential difference across C_(1) will be