Find the potential `varphi` at the edge of a thin disc of radius `R` carrying the uniformly distributed charge with surface density `sigma`.

Find the electric field potentail and strength at the centre of a hemisphere fo raidus R ahcged uniformly with the the surface density sigma .

Calculate potential on the axis of a disc of radius R due to a charge Q uniformly distributed on its surface.

The diagram shows a part of disc of radius R carrying uniformly distributed charge of density sigma . Electric potential at the centre O of parent disc is

Repeat the question if sphere is a hollow non-conducting sphere of radius R and has uniform surface charge density sigma .

A thin annular disc of outer radius R and R/2 inner radius has charge Q uniformly distributed over its surface. The disc rotates about its axis with a constant angular velocity omega . Choose the correct option(s):

Calculate the magnetic field at distance y from the centre of the axis of a disc of radius r and unifrom surface charge density sigma , If the disc spins with angular velocity omega ?

Find the centre of mass of a thin, uniform disc of radius R from which a small concentric disc of radius r is cut.

Derive the expression of electric field intensity at a point 'P' which is situated at a distance x on the axis of uniformly charges disc of radius R and surface charge density sigma . Also, derive results for (i) x gt gt R (ii) x lt lt R

Find the electric field caused by a disc of radius a with a uniform surfce charge density sigma (charge per unit area) at a point along the axis of the disc a distance x from its centre.

A non-conducting thin disc of radius R and mass m having charge uniformly over one side with surface density sigma rotates about its axis with an angular velocity omega . Find : (a) the magnetic induction at the centre of the disc, (b) the magnetic moment of the disc. ( c) the ratio of magnetic moment and angular momentum of disc.