A solid and a hollow metal spheres are given equal charges, which one will have higher electric potential.

A hollow metallic sphere is charged. Insider the sphere

If a solid and a hollow conducting sphere have same radius then

An isolated solid metallic sphere is given +Q charge. The charge will be distributed on the sphere

Charge q on a small conducting sphere S_(1) is placed inside a large hollow metallic sphere S_(2) having a charge Q as shown in figure. The sphere is connected to shell by a conducting wire. The charge on S_(1) will then be

Two connectric spheres of radii R and r have similar charges with equal surface charge densities (sigam) . The electric potential at their common centre is

A solid insulating sphere of radius R is given a charge Q. If at a point inside the sphere the potential is 1.5 times the potential at the surface, this point will be

The diameter of a hollow metallic sphere is 60 cm and the sphere carries a charge of 500 muC . The potential at a distance of 100 cm from the centre of the sphere will be

An isolated solid metal sphere of radius R is given an electric charge. The variation of the intensity of the electric field with the distance r from the centre of the sphere is best shown by

A metal ball of radius R is placed concentrically inside hollow metal sphere of inner radius 2R and outer radius 3R .The ball is given a charge +2Q and the hollow sphere a total charge -Q .The electrostatic potential energy of this system is

A solid conducting sphere of radius r is having a charge Q and point charges +q and -q are kept at distance d from the centre of sphere as shown in the figure. The electric potential at the centre of solid sphere (assume potential to be 0 at infinity)