Find out electric field intensity due to uniformly charged solid non-conducting sphere of volume charge density `rho` and radius R at following points :
(i) At a distance r from surface of sphere (inside)
(ii) At a distance r from the surface of sphere (outside)

Electric field due to an infinite non-conducting sheet of surface charge density sigma , at a distance r from it is

Find out energy stored inside a solid non-conducting sphere of total charge Q and radius R. [Assume charge is uniformly distributed in its volume.]

Electric field intensity due to a charged sphere at a point outside the sphere decreases with "……………….." .

A sphere of radius R has a charge density sigma . The electric intensity at a point at a distance r from its centre is

The electric field at 2R from the centre of a uniformly charged non - conducting sphere of rarius R is E. The electric field at a distance ( R )/(2) from the centre will be

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 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 :

For a uniformly charged non conducting sphere of radius R which of following shows a correct graph between the electric field intensity and the distance from the centre of sphere –

The electric field intensity at a distance 20 cm from the centre of a uniformly charged non conducting solid sphere of radius 10 cm is E .Then what is the electric field intensity at a distance 5 cm from the centre it will be.....