Figure shows two concentric shells of radii a and b uniformly distributed charges q and -q. Which of the following graphs gives correct variation of electric field intensity E with the distance r from the centre?

Which one of the following graphs represents the variation of electric field with distance r from the centre of a charged spherical conductor of radius R?

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 –

A spherical insulator of radius R is charged uniformly with a charge Q throughout its volume and contains a point charge Q/16 located at its centre. Which of the following graphs best represent quanlitatively, the variation of electric field intensity E with distance r from the centre.

Two concentric conducting shells of radius a and (gt a) carry charges Q and -2Q respectively. The correct variation of electric intensity E as a function of r is given by

Figure shows two concentric spheres of radii R_(1) and R_(2) (R_(2) gt R_(1)) which contain uniformly distributed charges Q and -Q respectively. Find out electric field intensities at the following positions : (i) r lt R_(1) (ii) R_(1) le r le R_(2) (iii) r ge R_(2)

An isolated non-conducting solid sphere of radius R is given an electric charge. The charge is uniformly distributed in the volume of sphere. The graph which shows the correct variation of magnitude of electric field with distance from the centre of the sphere is

Draw a graph of electric field E(r) with distance r from the centre of the shell for 0 le r le 0 .