For a spherical capacitor shown at which points the electric field will be zero ? ( r is the distance of point from centre O )

The position of the point where the net electric field will be zero is

In an electric dipole, at which point is the electric potential zero?

Two small spherical shells a and B are given positive charges of 9 C and 4 C respectively and placed such that their centres are separated by 10 m. If P is a point in between them, where the electric field intensity is zero, then the distance of the point P from the centre of A is

An isolated solid metal sphere of radius R is given an electric charge. The variation of the intensity of the electric field with the distance r from the centre of the sphere is best shown by

A hollow spherical conductor of radius 1m has a charge of 250mu C then electric intensity at a point distance of 0.5m from the centre of the spherical conductor is

A few spherical equipotential surfaces are shown in the figure. The electric field at any point, at a distance x from the centre, is

Conisder a thin spherical shell of radius R with centre at the origin, carrying uniform poistive surface charge denisty. The variation of the magnitude of the electric field |vecE(r)| and the electric potential V(r) with the distance r from the centre, is best represented by which graph?

Using Gauss' law deduce the expression for the electric field due to a uniformly charged sperical conducting shell of radius R at a point (i) outside and (ii) inside the shell. Plot a graph showing variation of electric field as a function of r gt R and r lt R . (r being the distance from the centre of the shell)

Two spherical shells are as shown in figure. Suppose r is the distance of a point from their common centre. Then, electric field and electrical potential by both shells

A point charge q is placed at the origin . How does the electric field due to the charge very with distance r from the origin ?