In the following
Wheatstones bridge `P//Q=R//S`. If key K is closed then the galvanometer will show deflection

A box with two terminals is connected across a cell of 2 V internal resistance 1 Omega and with an ammeter and a key in series with it. When the key is closed, the ammeter shows a deflection which quickly drops to zero. The box most probably contains :

In the arrangement shown below, two different coils A and B are inserted over a non-conducting hollow cylinder : i] Does the galvanometer [G] show any deflection when a constant current flows in coil A ? ii] Does the galvanometer show any deflection when current in coil A is changed with the help of the rheostat ? iii] Is there any change in deflection if the current in the coil A is changed at a faster rate ? Explain your observation in each case.

In the arrangement shown below, two different coils A and B are inserted over a non-conducting hollow cylinder : i] Does the galvanometer [G] show any deflection when a constant current flows in coil A ? ii] Does the galvanometer show any deflection when current in coil A is changed with the help of the rheostat ? iii] Is there any change in deflection if the current in the coil A is changed at a faster rate ? Explain your observation in each case.

The resistance of each arm of Wheatstone Bridge is 10 Omega . A resistance of 10 Omega is connected in series with the galvanometer then equivalent resistance across battery will be

The resistance in ohm in the four arms of Wheatstone bridge are as follows. In which case the bridge is balanced ?

In the Figure , what will be the reading of the ammeter and voltmeter, when the key K is closed ? The internal resistance of the cell is zero.

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.

Figure shows a Wheatstone bridge circuit. If a current of 2A enters at A, then the current in the arm BC is