Two conducting closed surfaced shells are shown in figure. They are connected by wire through switch S. If `q_(1)` and `q_(2)` charges are given to inner and outer shells respectively . The switch is closed find the ratio of final charge to initial charge for each shell.

There are two concentric spherical shell of radii r and 2r . Initially, a charge Q is given to the inner shell and both the switches are open. If switch S_1 is closed and then opened, charge on the outer shell will be

In the given circuit, the initial charges on the capacitors are shown in the figure. The charge flown through the switches S_(1) and S_(2) respectively after closing the switches are

Charges Q, 2Q , and -Q are given to three concentric conducting sphereical shells A, B and C respectively as shown in figure. The ratio of charge on the inner and outer surface of shell C will be

Charges Q, 2Q , and -Q are given to three concentric conducting sphereical shells A, B and C respectively as shown in figure. The ratio of charge on the inner and outer surface of shell C will be

In an arrangement of two concentric conducting shells, with centre at origin and radii a and b (a lt b) , charges Q_(1) and Q_(2) are given to inner and outer shell, then the potential V at a distance r from the origin is (r lt a )

There are two spheres of radii R and 2R having charges Q and Q//2 , respectively. These two spheres are connected with a cell of emf V volts as show in. When the switch is closed, find the final charge on each sphere.

For the circuit shown in figure below, at t = 0, switch is closed, the initial current through resistor and final charge on capacitor are

Figure shows two conducting thin concentric shells of radii r and 3 r . The outer shell carries charge q and the inner shell is neutral . The amount of charge that flows from the inner shell to the earth after the key K is closed is equal to (1//n)^(th) of the charge on the outer shell. What is the value of n ? .

As shown in Figure, charge Q is kept in the inner cavity and a charge of 2Q and 3Q are imparted to the inner and outermost shells. (a) Find charge at each of the surface . (b) Find E in the first annular region and outside.

The initial charge across capacitors A and B are shown with Q=CE. Find the ratio of final charge in capacitor A to the final charge in capacitor B, when cells are switched on.