Electric field at the centre of uniformly charge hemispherical shell of surface charge density `sigma` is `(sigma)/(n epsi_(0))` then find the value of `n`.

The electric field inside a spherical shell of uniform surface charge density is

Find the electric field at the centre of a uniformly charged semicircular ring of radius R. Linear charge density is lamda

(a) Using Gauss's law, derive an expression for the electric field intensity at any point outside a uniformly charged thin spherical shell of radius R and charge density sigma C//m^(2) . Draw the field lines when the charge density of the sphere is (i) positive, (ii) negative. (b) A uniformly charged conducting sphere of 2.5 m in diameter has a surface charge density of 100 mu C//m^(2) . Calculate the (i) charge on the sphere (ii) total electric flux passing through the sphere.

Calculate electric field at a point on axis, which at a distance x from centre of uniformly charged disc having surface charge density sigma and R which also contains a concentric hole of radius r.

Find out energy stored in the electric field of uniformly charged thin spherical shell of total charge Q and radius R.

The electric intensity at a point near a charged conductor of surface charge density sigma is

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

Electric field intensity at a point in between two parallel sheets with like charges of same surface charge densities (sigma) is