In a Wheatstone's network, `P=2Omega, Q=2Omega, R=2Omega and S=3Omega`. The resistance with which S is to be shunted in order that the bridge may be balanced is

In the Wheatstone network given, P=10 Omega, Q=20Omega, R=15Omega, S=30Omega , the current passing through the battery (of negligible internal resistance)

A Wheatstone network consists of four resistances (in cyclic order) 10Omega,5Omega,6Omega,6Omega . The resistance that must be connected across the 10Omega resistance so that the network becomes balanced is (in Ohm):

In Wheatstone's bridge P = 9 ohm , Q = 11 ohm , R = 4 ohm and S = 6 ohm . How much resistance must be put in parallel to the resistance S to balance the bridge

In the given figure, E=12V, R_(1)=3Omega, R_(2)=2Omega" and "r=1Omega . The choose the correct option/s

In the circuit shown in figure heat developed across 2Omega, 4Omega and 3Omega resistances are in the ratio

In Wheatstone bridge, four resistors of resistances 15 Omega, 12 Omega, 4Omega and 10 Omega respectively, are connected in cyclic order. The resistance ( in Omega ) that is to be connected in parallel with the resistance of 10 Omega to balance the network is

The resistance in the two arms of the meter bridge are 5 Omega and R Omega , respectively. When the resistance R is shunted with an equal resistance, the new balance point is 1.6 l_(1) . The resistance R is

The resistance in the two arms of the meter bridge are 5 Omega and R Omega , respectively. When the resistance R is shunted with an equal resistance, the new balance point is 1.6 l_(1) . The resistance R is

In the situation shown, the currents through 3Omega and 2 Omega resistances are in the ratio.

Four resistances of 3Omega, 3Omega, 3Omega and 4Omega respectively are used to form a Wheatstone bridge. The 4Omega resistance is short circuited with a resistance R in order to get bridge balanced. The value of R will be