An accumulator with a steady emf of 2 V is connected across a potentiometer wire at 6.732 m If a resistance of 2.5 `Omega` is put in series with the wire find the new position of the null point.

An ideal cell having a steady emf of 2 volt is connected across the potentiometer wire of length 10m . The potentiometer wire is of magnesium and having resistance of 11.5Omega//m . An another cell gives a null point at 6.9m . If a resistance of 5Omega is put in series with potentiometer wire, find the new position of the null point.

A 5 m potentiometer wire having 3 Omega resistance per meter is connected to a storage cell of steady emf 2 V and internal resistance 1 Omega . A primary cell is balanced against 3.5 m of it. When a resistance of 32//n Omega is put in series with the storage cell, the null point shifts to the centre of the last wire, i.e., 4.5 m . What is 'n'?

A potentiometer , with a wire of length 10 m, is connected to an accululator of steady voltage. A lenchlanche cell gives a null point at 7.5 m If the length of the potentiometer wire is increaseed by 1 m, find the new posistion of the null point.

An accumulator of 4 V is connected through a resistance of 30Omega to a potentiometer wire 10 m long and resistance 30Omega . When a cell is connected through a galvanometer to the potentiometer the null point is found at 5.5 m from the common terminal. The potential gradient in the wire is

A resistance of 990Omega and a cell of emf 2 V is connected in series with a potentiometer wire having a length 2 m and resistance 10Omega . The potential gradient along the wire will be

In a potentiometer experiment, the galvanometer shows no deflection when a cell is connected across 60 cm of the potentiometer wire. If the cell is shunted by a resistance of 6 Omega , the balance is obtained across 50 cm of the wire. The internal resistance of the cell is

An accumulator of 5 volt is connected through a resistance of 40Omega to a potentiometer wire 10 m long and of resistance 10Omega . For a cell, the null point is found at a length of 8 m from the common terminal. The current through the wire is

A 5- Wire potentiometer is connected to a storage cell of steady emf 2 V and 1 Omega resistance. A primary cell is balanced against 305 m of it.What resistance will be required in series with the storage cell to push the null point to the center of the last wire, i.e 4.5 m? (The wire has 3 Omega resistance per metre)

A potentiometer having a wire 10 m long stretched on it is connected to a battery having a steady voltage. A length of potentiometer wire is increase by 100 cm , find the new position of null point.