Surface charge density of a conducting sphere of a radius 10 cm is `8.85 xx 10^(-8) c//m^(2)`. Potential at the centre of the sphere is

The surface charge density of a conducting sphere is 8.85xx10^(-10)C//m^(2) and the electric field intensity at a distance of 4m from the centre of the sphere is 10^(-2)V//m . The radius of the sphere, assuming the sphere to be in vacuum is

The potential of a sphere conductor of radius 5 cm is 10 V. what is the potential at the centre of the sphere?

A conducting sphere of radius 10 cm is given a charge of +2xx10^(-8)C . What will be its potential?

What is the net charge on a conducting sphere of radius 10 cm ? Given that the electric field 15 cm from the center of the sphere is equal to 3xx10^(3) N/C and is directed inward

The charge density on the surface of a conducting sphere is 64xx10^(-7)C//m^(2) and the electric intensity at a distance of 2 m from the centre of the sphere is 4pixx10^(4)N//C . The radius of the sphere is

A solid metal sphere of radius 50 cm carries a charge 25xx10^-10C . The electrostatic potential at the surface of the sphere will be

The centre of neutral conducting sphere of radius "R" is at distance 'd' from a point charge "Q" .The potential of the sphere is

A hollow sphere of radius 0.1 m has a charge of 5 xx10^(-8) C . The potential at a distance of 5 cm from the centre of the sphere is (1/(4pi epsi_(0))=9xx10^(9) Nm^(2) C^(-2))

An electron is placed at the centre of a Conducting sphere of radius 0.2 metre having a charge 5xx10^(-2) coulomb.The force on the electron is

A uniformly charged conducting sphere of 2.4m diameter has a surface density of 80.0 mu C//m^(2) . (a) Find the charge on the sphere (b) What is the total electric flux leaving the surface of the sphere ?