What is the radius of the imaginary concentric sphere that divides the electrostatic field of a metal sphere of a radius 20 cm and change of `8muC` in two regions of identical energy?

Find the energy stored in the electirc field produced by a metal sphere of radius R containing a charge Q.

A metal sphere of radius R is charged to a pontital V . (a ) Find the electrostatic energy stored in the electric field within a concentric sphere of radius 2 R . (b )Show that the electrostatic field energy stored outside the sphere of radius 2R equals that stored within it .

How many metallic balls of radius 1 cm can be recast by melting a metallic sphere of radius 8 cm?

A point charge Q is placed at the origin . Find the electrostatic energy stored outside the sphere of radius R centred at the origin.

The energy stored in the electric field produced by a metal sphere is 4.5 J. If the sphere contains 4mu C charge, its radius will be:

The energy stored in the electric field produced by a metal sphere is 4.5 J. If the sphere contains 4mu C charge, its radius will be:

How many solid spherical balls of radius 2cm and be made by melting a solid sphere of radius 8 cm?

The volume of a sphere is given by V=4/3 piR^(3) where R is the radius of the radius of the sphere. Find the change in volume of the sphere as the radius is increased from 10.0 cm to 10.1 cm . Assume that the rate does not appreciably change between R=10.0 cm to R=10.1 cm

A spherical capacitor has an inner sphere of radius 12 cm and an outer sphere of radius 13 cm. The outer sphere is earthed and the inner sphere is given a charge of 2.5 muC . The space between the concentric spheres is filled with a liquid of dielectric constant 32. (a) Determine the capacitance of the capacitor. (b) What is the potential of the inner sphere ? (c) Compare the capacitance of this capacitor with that of an isolated sphere of radius 12 cm.Explain why the later is much smaller ?

A hallow metal sphere of radius R is uniformly charged. The electric field due to the sphere at a distance r from the centre: