Resistance of a conductor is `200 Omega` and the current through it is 10 mA,What is the potential difference across the two ends of the conductor?

If the resistance of a conductor is 5 Omega and strength of current through it be 2A, find the terminal potential difference between the two ends of the conductor.

What happens when a potential difference is applied across the ends of a conductor?

What would be the resistance of a conductor if the current flow through it is 0.35 A when the potential difference across is 1.4 V?

The resistance of a conductor is 10 ohm. Find the current through it when a potential difference of 2 V is applied across it. To pass the same current through a conductor of resistance 40 Omega , how much potential difference should be applied across it?

Find the resistance of a conductor if the electric current flowing through it is 0.35 A when the potential difference across it is 1.4 V.

Resistance of a conductor is twice that of another conductor and the potential differences between the two ends of the two conductors are same. Find the ratio of strengths of currents flowing, through them.

Resistance of a conductor is twice that of another conductor and the potential differences between the two ends of the two conductors are same. Find the ratio of strengths of currents flowing through them.

An electric lamp whose resistance is 8 Omega and a conductor of 2 Omega resistance are connected in series to a 5 volt battery . Calculate( a) the total resistance of the circuit (b) the current through the circuit (c) the potential difference across the electric lamp and the conductor?

An electric lamp, whose resistance is 20 Omega and a conductor of 4 Omega resistance are connected to a 6 V battery as shown in (Fig. 3.18) Calculate. (a) the total resistance of the circuit, (b) the current through the circuit, and ( c) the potential difference across the electric lamp and the conductor. .

An electric lamp, whose resistance is 20 Omega and a conductor of 4 Omega resistance are connected to a 6 V battery as shown in (Fig. 3.18) Calculate. (a) the total resistance of the circuit, (b) the current through the circuit, and ( c) the potential difference across the electric lamp and the conductor. .