Two concentric shells of radii `R` and `2R` have given charge `q` and `-2q` as shown in figure in a region `r lt R`

(a) `E=0`,(b) `E!=0`,(c ) `V=0` (d) `V!=0`

Two cententric shells of radii R and 2R have given charge q and -2q as shown in figure in a region r lt R (a) E=0 ,(b) E!=0 ,(c ) V=0 (d) V!=0

Two concentric spherical shells of radii R and 2R have charges Q and 2Q as shown in figure Choose the correct optin (K = (1)/(4 pi epsi_(0)))

Two concentric spherical shells of radii R and 2R have charges Q and 2Q as shown in figure If we daw a graph between electric field E and distance r from the centre, it will be like

Two concentric spherical shells of radii R and 2R have charges Q and 2Q as shown in figure If we draw a graph between potential V and distance r from the centre, the graph will be like

There are two concentric metallic shells of radii R and 2R, if outer shell is given charge q_1 , then charge on surface of inner shell will be

Two concentric spherical conducting shells of radii R and 2R are carrying charges q and 2q, respectively. Both are now connected by a conducting wire. Find the change in electric potential (inV) on the outer shell.

Consider two concentric metalic shell's of radii R and 2R. The inner shell is having charge Q and outer shell is uncharged. If they are connected with a conducting wire. Then,

Two concentric spherical shells fo radill R and 2R are given charges Q_(1) and Q_(2) respectively. The surfaces charge densities of the outer surfaces are equal. Determine the ratio Q_(1) : Q_(2) .

Two concentric shells have radii R and 2R charges q_A and q_B and potentials 2V and (3/2)V respectively. Now, shell B is earthed and let charges on them become q_A' and q_B' . Then,