If 10 `Omega` is unplugged from a standard resistance box and 33`1/3` cm is the balancing length obtained in the metre bridge, then calculate the resistance of the wire.

With a resistance P Omega in the left gap and another resistance Q Omega in the right gap of a meter bridge, the balance point is obtained at 40 cm. When a resistance of 6 Omega is connected across Q, the balance point shifts to 50 cm. The value of resistance P is

What is meant by the statement that the resistance of a wire is 1 Omega ?

A cube of side 0.05 m of a material of conductor is drawn into a wire of thickness 0.20 mm . If the specific resistance of the wire is 10^(-6)Omegam then calculate the resistance of the wire.

P, Q, R and S are four resistors of resistances 2, 2, 2 and 3 ohm respectively and are arranged to form a Wheatstone bridge network. Calculate the resistance with which the resistor S must be shunted in order that the bridge may be balanced.

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

The figure shows a 2.0V potentiometer used for the determination of internal resistance of a 1.5V cell. The balance point of the cell in open circuit is 76.3 cm. When a resistor of 9.5Omega is used in the external circuit of the cell, the balance point shifts to 64.8 cm length of the potentiometer wire. Determine the internal resistance of the cell.

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 .t.. If the temperature of water is increased, the new balancing length is

A wire having length 2.0 m diameter 1.0 mm and resistivity 1.963 xx 10^(-8) Ω m is connected in series with a battery of emf 3V and internal resistance I Ω . Calculate the resistance of the wire and current in the circuit.