In a solid uniformly charged sphere of total charge Q and radius R, if energy stored out side the sphere is `U_(0)` joules then find out self energy of sphere in term of `U_(0)` ?

Figure shows a uniformly charged sphere of radius R and total charge Q. A point charge q is situated outside the sphere at a distance r from centre of sphere. Find out the following : (i) Force acting on the point charge q due to the sphere. (ii) Force acting on the sphere due to the point charge.

If Q charge is given to a sphere of radius R, the energy of the system is

A bullet of mass m and charge q is fired towards a solid unifromly charged sphere of redius R and total cbharge + q . If it strikes the surface of sphere with speed u , find the minimum speeed u so that it can penetrate through the sphere , (Neglect all resistance forces or friction acting on bullet except electrositatic forces ) .

A uniformly charged solid sphere a mass M, radius R having charge Q is rotated about its diameter with frequency f_0 . The magnetic moment of the sphere is

Figure shows a hemisphere of charge Q and radius R and a sphere of charge 2Q and radius R. The total potential energy of hemisphere is U_(H) and that of the sphere is U_(s) Then.

A bullet of mass m and charge q is fired towards a solid uniformly charge sphere of radius R and total charge +q. If it strikes the surface of sphere with speed u, find the minimum value of u so that it can penetrate through the sphere. (Neglect all resistance force or friction acting on bullet except electrostatic forces)

A point charge Q is placed at the origin . Find the electrostatic energy stored outside the sphere of radius R centred at the origen.

An unchanged conducting sphere of radius R is placed near a uniformly charge ring of radius R. Total charge on ring is Q. The centre of sphere lies on axis of ring and distance of centre of sphere from centre of ring is R

Figure shows a uniformly charged thin non-conducting sphere of total charge Q and radius R. If point charge q is situated at point 'A' which is at a distance r lt R from centre of the sphere, then find out following : (i) Force acting on charge q. (ii) Electric field at centre of sphere. (iii) Electric field at point B.

A solid uniformly charged ficed non-conducting sphere of total charge Q and radius R contains a tunnel of negligible diameter. If a point charge '-q' of mass 'm' is released at rest from point P as shown in figure then find out its velocity at following points (i) At the surface of sphere (ii) At the centre of the sphere