The potential gradient along the length of uniform wire is `10" Vm"^(-1)`. The length of the wire is 1 m. What is the potential difference across two points on the wire separated by 25 cm?

When a force is applied along the length of the wire

The potential gradient along the length of a uniform wire is 12 volt per mtre. B and C are two points at 28 cm and 52 cm on a metre scale along the wire. The potential difference between B and C will be

Length of potentiometer wire is 600 cm and a driving cell develop 6V potential difference across it. The potential gradient along the wire is?

In a potentiometer , potential difference across the potentiometre wire is directly proportional to its

The uniform charge distribution along the length of the thin rod or wire is called the

A potential difference 3V is applied across a potentiometer wire of length 10 m. If the length of wire is reduced by 1 m the value of potential gradient in V//m will be

A potentiometer consists of a wire of length 4 m and resistance 10 Omega . If is connected of cell of emf 2V . The potential difference per unit length of the wire will be

A wire carries a current of 0.1 A for 10 seconds. If the work done in this process is 20 J, find the potential difference between the two ends of the wire.

The resistance of a 1m long nichrome wire is 6 Omega . If we reduce the length of the wire to 70 cm, what will its resistance be?

A potentiometer has uniform potential gradient. The specific resistance of the material of the potentiometer wire is 10^(-7) ohm-metre and the current passing through it is 0.1 ampere, cross-section of the wire is 10^(-6)" m"^(2) . The potential gradient along the potentiometer wire is