In metre bridge experiment, with a standard resistance in the right gap and a resistance coil dipped in water (in a beaker) in the left gap, the balancing length obtained is '1'. If the temperature of water is increased, the new balancing

In a meter bridge experiment the ratio of left gap resistance to right gap resistance is 2:3 the balance point from is

In a meter bridge experiment the ratio of left gap resistance to right gap resistance is 2:3 the balance point from is

In a meter bridge experiment , the ratio of the left gap resistance to right gap resistance is 2:3 , the balance point form left is

A metre bridge is balanced with known resistance in the right gap and a metal wire in the left gap. If the metal wire is heated the balance point.

In a metre bridge a copper coil is connected in the right gap and a resistance of 10 Omega in the left gap. The balance point is obtained at 0.2 m. The resistance of the coil is

When a conductor is connected in the left gap and known resistance in the right gap the balancing length is 50 cm. if the wire is stretched so that its length increased by 20% new balancing length is

In a meter bridge with a standard resistance of 15Omega in the right gap, the ratio of balancing length is 3:2 . Find the value of the other resistance.

In a metre bridge, metal wire is connected in the left gap, standard resistance is connected in the right gap and balance point is found. If the metal wire in the left gap is heated, the balance point

In a metre-bridge experiment, when the resistances in the gaps in the gaps are interchanged, the balance-point did not shift at all. The ratio of resistances must be

In the metre-bridge experiment with uknown resistance X in the left gap and a known resistance of 60Omega in the right gap, null point is obtained at l cm from left. If the unknown resistance X is shunted by an equal resistance, what should be the value of the known resistance in the right gap in order to get the null point at the same position?.