For charged metallic sphere, potential changes with respect to distance from the centre as:

In a hollow spherical shell, potential (V) changes with respect to distance (s) from centre as

If the potential at the centre of a uniformly charged hollow sphere of radus R is V, then electric field at a distance r from the centre of sphere will be (rgtR) .

The electrostatic potential of a uniformly charged thin spherical shell of charge Q and radius R at a distance r from the centre

Inside a hollow charged spherical conductor the potential Is constant Varies directly as the distance from the centre Varies inversely as the distance from the centre Varies inversely as the square of the distance from the centre

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)

A solid sphere of radius R is charged uniformly. The electrostatic potential V is plotted as a function of distance r from the centre of th sphere. Which of the following best represents the resulting curve?

A hallow metal sphere of radius R is uniformly charged. The electric field due to the sphere at a distance r from the centre:

A hollow metal sphere of radius 5 cm is charged such that the potential on its surface is 10V . The potential at the distance 3 cm from the centre of the sphere is: