STATEMENT -1 : Consider a conducting sphere of radius `R`. Now a charge `q` is placed in front of shphere . Electric potential at point `O` is `(Kq)/r`

STATEMENT -2: Electric potential at the centre of sphere due to induced charges is zero.

In the above problem, find the electric field and electric potential at the centre of the sphere due to induced charges on the sphere?

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 :

The centre of neutral conducting sphere of radius "R" is at distance 'd' from a point charge "Q" .The potential of the sphere is

STATEMENT -1: A point charge q is placed in front of a solid conducting sphere. Electric field due to induced charges at the centre of sphere is zero . . STATEMNT -2 : Electric field at a point inside the solid body fo conductor is zero.

A hollow conducting sphere of radius R has a charge (+Q) on its surface. What is the electric potential within the sphere at a distance r = (R )/(3) from its centre ?

A non-conducting sphere of radius R is given a charge Q. Charge is uniformly distributed in its volume. The electric potential at centre and at the surface of sphere respectively are

A non-conducting sphere of radius R is given a charge Q. Charge is uniformly distributed in its volume. The electric potential at centre and at the surface of sphere respectively are

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 sphere of radius 2R has a uniform charge density p. The difference in the electric potential at r = R and r = 0 from the centre is: