In a wheatstone bridge resistance of each of the four sides is `10Omega`. If the resistance of the galvanometer is also `10Omega` , then effective resistance of the bridge will be

In a Wheatstone's brigde all the four arms have equal resistance R . If the resistance of the galvanometer arm is also R , the equivalent resistance of the combination as seen b the battery is

Four resistors each of resistance 2 Omega are connected in parallel. What is the effective resistance ?

The resistance of each arm of the wheat stone bridge is 10Omega . A resistance of 10Omega is connected in series with galvanometer then the equivalent resistance across the battery will be:-

What resistance must be connected to a 15 Omega resistance to provide an effective resistance of 6 Omega ?

In above question if resistance of meter bridge wire is 1 Omega /cm then the value of current / is

The resistance of the four arms A, B, C and D of a wheatstone bridge as shown in the figure are 10 Omega , 20 Omega , 30 Omega and 60 Omega respectively . The emf and internal resistance of the cell are 15 V and 2.5 Omega respectively . If the galvanometer resistance is 80 Omega then the net current drawn from the cell will be

In the network shown in figure each resistance is 1Omega . The effective resistance between A and B is

In a wheatstone bridge if the battery and galvanometer are interchanged then the deflection in galvanometer will

In the above arrangement, each side of the cube has 1 Omega resistance and it is known that the effective resistance between A and B is 5/9 Omega . Now, if the resistor between A and B is removed, then find the new effective resistance (in Omega ) between the same two points.

Consider a Wheatstone bridge with resistance and capacitance connected as shown Find the condition on the resistance and the capacitance such that the bridge remains balanced at all times.