Find the graph between electric field intensity and distance 'r' from the center. For the given arrangement of concentric spheres. Charge in inner solid sphere is uniformly distributed in volume.

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 at point P due to charge distributed over a sphere is:

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.....

Find the electric work done in bringing a charge q from A to B in a sphere of charge Q distributed uniformly throughout its volume. .

A solid sphere of radius R has a charge +2Q . A hollow spherical concentric with the first sphere that has net charge -Q. (a) Find the electric field between the spheres at a distance r from the centre of the inner sphere. [R ltr lt3R] (b) Calculate the potential difference between the spheres. (c) What would be the final distribution of charges, if a conducting wire joins the spheres? (d) Instead of (c), if the inner sphere is earthed, what is the charge on it?

A solid sphere of radius R has total charge Q. The charge is distributed in spherically symmetric manner in the sphere. The charge density is zero at the centre and increases linearly with distance from the centre. (a) Find the charge density at distance r from the centre of the sphere. (b) Find the magnitude of electric field at a point ‘P’ inside the sphere at distance r_1 from the centre.