A hollow conducting sphere contains q charge uniformly distributed over the surface. Draw V-r graph, where r is the distance from the centre of the sphere.

A hollow conducting sphere of radius 1 m contains 2 xx 10^(-9) C charge uniformly distributed over the surface. Find the value of potential at a distance 0.5 m from the centre of the sphere.

A ring of radius a is charged and contains q charge uniformly distributed over the ring . Find an expression for electric field at any position on the axis of the ring . For x gt gt a , where x is the axial distance of the experimental point , what is the reduced form of the expression ? Interprete the result .

Using Gauss's theorem , prove that electric field at any point inside a charged hollow spherical conductor is zero . Draw a graph showing the variation of electric field with distance from the centre of the hollow conductor .

A spherical conductor of radius 10 cm has a charge of 3.2×10 ^−7 C distributed uniformly. What is the magnitude of electric field at a point 15cm from the centre of the sphere?

Two charged conducting spheres of radii r_1 and r_2 connected to each other by a wire . Find the ratio of electric field at the surfaces of the two spheres .

A spherical conductor of radius 12 cm has a charge 1.6xx10^(-7) C distributed uniformly on its surface. What is the electric filed inside the sphere

A spherical conductor of radius 12 cm has a charge 1.6xx10^(-7) C distributed uniformly on its surface. What is the electric filed outside the sphere.

A conducting sphere of radius 10cm has unknown charge. If the electric field at 20cm from the centre of the sphere is 1.5 * 10^3NC^-1 and points radially inward, what is the net charge of the sphere?

A long straight conductor of small radius is carrying current. Plot a graph showing the variation of |B|with r, where r is the distance of the experimental point from conductor.

A non-conducting solid sphere of radius R = 0.1 m is uniformly charged by an amount of charge 10^(-9) C . Calculate the electric field in magnitude at a distance r = 0.05 m from the centre of the sphere .