If the emf of the cell in the primary circuit is doubled, with out changing the cell in the secondary circuit, the balancing length is

For a potentiometer to function, the emf of the cell ( E ) in the primary circuit compared to the emf of the cell ( E^(1) ) in the secondary circuit should have a realtion

Assertion: The emf of the cell in secondary circuit must be less than emf of cell in primary circuit in potentiometer. Reason: Balancing length cannot be more than length of potentiometer wire.

If the current in the primary circuit is decreased, then the balancing length is obtained at

If the current in the primary circuit is decreased, then balancing length is obtained at

In the determination of the internal resistance of a cell using a potentiometer, when the cell is shunted by a resistance R and connected in the secondary circuit, the balance length is found to be L_(1) . On doubling the shunt resistance, the balance length is found to increase to L_(2) . The value of the internal resistance is

A cell in the secondary circuit gives null deflection for 2.5 m length of a potentiometer having 10m length of wire. If the length of the potentiometer wire is increased by 1m without changing the cell in the primary, the position of the null point wil be

A current of 20 A in the primary part of a circuit is reduced to zero in 0.001 s. If the emf induced in the secondary part of tge circuit is 2000 V, then find the coefficient of mutual induction.

When 6 identical cells of no internal resistance are connected in series in the secondary circuit of a potential meter, the balancing length is /, balancing length becomes l/3 when some cells are connected wrongly, the number of cells connected wrongly are