A small sphere of radius `r_(1)` and charge `q_(1)` is enclosed by a spherical shell of radius `r_(2)` and charge `q_(2)`. Show that if `q_(1)` is positive, charge will necessilly flow from the sphere to the shell (when the two are connected by a wire) no matter what the charge `q_(2)` on the shell is [Fig]

A metallic sphere of radius R having charge Q is connected to an uncharged sphere of radius 3R . The amount of charge flown through connecting wire is

A spherical conducting shell of radius r_(0) carry a charge q_(0) . Then value of electric field inside it is :-

A solid conducting sphere of radius 10 cm is enclosed by a thin metallic shell of radius 20 cm . A charge q = 20 mu C is given to the inner sphere is connected to the shell by a conducting wire.

A spherical shell of radius R has a charge +q units. The electric field due to the shell at a point

A conducting sphere of radius R carries a charge Q. It is enclosed by another concentric spherical shell of radius 2R. Charge from the inner sphere is transferred in infinitesimally small installments to the outer sphere. Calculate the work done in transferring the entire charge from the inner sphere to the outer one.

Two conducting hollow spherical shells of radius R and 2R carry charges -Q and 3Q respectively. How much charge will flow into the earth if inner shell is grounded?