The surface charge density of an irregular shaped conductor is

A number of spherical conductors of different radii are charged to same potential. The surface charge density of each conductor is related with its radius as

Assertion: The surface charge densities of two spherical conductors of different radii are equal. Then the electric field intensities near their surface are also equal. Reason: Surface charge density is equal to charge per unit area.

An uncharged conductor of arbitrary (non-spherical)shape, has a spherical cavity with a point charge q kept at its centre. The induced surface charge densities at outer surface of conductor and inner surface of cavity in electrostatic condition are respectively

A spherical conducting shell of inner radius r_(1) and outer radius r_(2) has a charge Q. (a) A charge q is placed at the center of the shell. What is the surface charge density on the inner and outer surfaces of the shell ? (b) Is the electric field intensity inside a cavity (with no charge) zero, even if the shell is not spherical, but has any irregular shape ? Explain.

Two spheres of radii 2 cm and 3 cm are charged to the same potential. If sigma and sigma_2 be respectively the values of surface charge density on the conductors, then the ratio (sigma_1)/(sigma_2) will be

The electric intensity at a point 1 metre from the centre of a charged spherical conductor of radius 20 cm is 10^(5) N//C . If the conductor is in a medium of permittivity 35.4 pF//m , the surface density of charge on the conductor is