A conducting sphere of radius b has a spherical cavity with its centre displaced by 'a' from centre of sphere `O_(1)`. A point charged `q` is placed at the centre of cavity `O_(2)`. Q charge is given to conducting sphere and charge `q_(0)` is placed at P, a distance c from centre `O_(1)`. Further `O_(1), O_(2)` and P are collinear

A solid conducting sphere of radius r is having a charge of Q and point charge q is a distance d from the centre of sphere as shown. The electric potential at the centre of the solid sphere is :

A conducting sphere of radius R_(2) has a spherical cavity of radius R_(1) which is non concentric with the sphere. A point charge q_(1) is placed at a distance r from the centre of the cavity. For this arrangement, answer the following questions. Electric potential at the centre of the cavity will be :

A conducting sphere of radius R_(2) has a spherical cavity of radius R_(1) which is non concentric with the sphere. A point charge q_(1) is placed at a distance r from the centre of the cavity. For this arrangement, answer the following questions. If q_(1) is shifted to the centre of the cavity, then: (choose the correct alternative)

A point charge q is placed at a distance of r from cebtre of an uncharged conducting sphere of rad R(lt r) . The potential at any point on the sphere is

A point charge 'Q' is placed at the centre of a spherical cavity of radius 'b' carved inside a solid conducting sphere of radius 'a'. Then total energy of the system is: [k = (1)/(4pi in_(0))]

A conducting sphere of radius R is given a charge Q . The electric potential and the electric field at the centre of the sphere respectively are

A conducting sphere of radius R is given a charge Q . The electric potential and the electric field at the centre of the sphere respectively are

A conducting shell of radius R carries charge–Q. A point charge +Q is placed at the centre of shell. The electric field E varies with distance r (from the centre of the shell) as :

consider a neutral conducting sphere of radius a with a spherical cavity of radius b . A charged conducting sphere of radius c is placed in cavity . Centre of this sphere coincide with centre of cavity charge on the inner sphere is q total self energy of this arrangement is:

A positive charge q is placed in a spherical cavity made in a positively charged sphere. The centres of sphere and cavity are displaced by a small distance vec(l) . Force on charge q is :