Calculate the amount of charge flowing in 2 min in a wire of resistance `10Omega` when a potential difference of 20 V is applied between its ends

Calculate the amount of charge flowing in 2 minutes in a wire of resistance 10 Omega when a potential difference of 20 V is applied between its ends

Calculate the current flowing through a wire of resistance 5 Omega connected to a battery of potential difference 3 V.

Calculate the current flowing through a wire of resistance 7.5 Omega connected to a battery of potential difference 1.5. V.

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

A resistor circuit is constructed such that 12 resistor are arranged to form a cube as shown in fig. Each resistor has a resistance of 2Omega. The potential difference of 30V is applied across two of the opposing points as shown In question 20, the potential difference between the points C and G is

In the arrangement, 11 wires each of resistance 5Omega are used as sides of cube. A potential difference of 70 V is maintained between corners A and B of cube. Current flowing in wire Ef is

In the arrangement, 11 wires each of resistance 5Omega are used as sides of cube. A potential difference of 70 V is maintained between corners A and B of cube. Current flowing in wire HG is

In the arrangement, 11 wires each of resistance 5Omega are used as sides of cube. A potential difference of 70 V is maintained between corners A and B of cube. Potential of junciton G is

Calculate the potential difference across the ends of a wire of resistance 2 Omega' when a current of 1.5 A passes through it.

A resistor of 6 Omega is connected in series with another resistor of 4 Omega . A potential difference of 20 V is applied across the combination. Calculate : the potential difference across the 6 Omega resistor.