In a practical wheat stone bridge circuit as shown, when one more resistance of `100 Omega` is connected in parallel with unknown resistance 'x', then ratio `l_1//l_2` become '2'`l_1` is balance length , AB is a uniform wire. Then value of 'x' must be :

The resistance in two arms of the meter bridge is 10 Omega and x respectively. The balance length is l_1 from left. Now the resistance of 10 Omega is shunted with another resistor of resistance equal to unknown resistance x then new balance point is 0.75l_1 The value of resistance x is

The potentiometer wire of length 100cm has a resistance of 10Omega . It is connected in series with a resistance of 5Omega and an accumulaot or emf 3V having negligible resistance. A source 1.2V is balanced against a length 'L' of the potentionmeter wire. find the value of L.

In meter bridge , the balancing length from left is found to be 20 cm when standard connected of 1 Omega is in right gap . The value of unknown resistance is

(i) State the principle of working of a meter bridge. (ii) In a meter bridge balance point is found at a distance I_(1) with resistances R and S as shown in the figure. When an unknown resistance X is connected in parallel with the resistance S, the balance point shifts to a distance I_(2) . Find the expression for X in terms of l_(1), l_(2) and S.

Three resistance P, Q, R each of 2 Omega and an unknown resistance S from the four amrs of a Wheatstone's bridge circuit. When a resistance of 6 Omega is connected in parallel to S the bridge gets balanced. What is the value of S ?

Three resistance P, Q, R each of 2 Omega and an unknown resistance S from the four amrs of a Wheatstone's bridge circuit. When a resistance of 6 Omega is connected in parallel to S the bridge gets balanced. What is the value of S ?

The resistance in the left and right gaps of a balanced meter bridge are R_(1) and R_(1) . The balanced point is 50 cm . If a resistance of 24 Omega is connected in parallel to R_(2) , the balance point is 70 cm . The value of R_(1) or R_(2) is.

In the gives circuit, a meter bridge is shows in a balanced state. The bridge wire has a resistance of 1 Omega cm^(-1) . Find the value of the unknown resistance X and the current draws from the battery of negligible internal resistance.

In a potentiometer experiment, the balancing length with a resistance of 2Omega is found to be 100cm, while that of an unknown resistance is 500cm. Calculate the value of the unknown resistance.

A potentiometer wire of Length L and a resistance r are connected in series with a battery of e.m.f. E_(0) and a resistance r_(1) . An unknown e.m.f. E is balanced at a length l of the potentiometer wire. The e.m.f. E will be given by :