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

A spherical conductor of radius 12 cm has a charge of 1.6xx10^(-7)C distributed uniformly on its surface. What is the electric field (a) inside the sphere (b) just outside the sphere (c ) at a point 18 cm from the center of the sphere ?

A 10 cm long rod carries a charge of +150 muC distributed uniformly along its length. Find the magnitude of the electric field at a point 10 cm from both the ends of the rod.

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 dielectric sphere of radius 10 cm has a charge of 3 mC distributed uniformly throughout its volume. The dielectric constant of the material of the sphere is 1. A bullet having charge 3 mc and mass 10 g is fired from the surface of the sphere along the diameter, directly towards its centre. Assuming the sphere to be fixed and neglecting any forces other than electrostatic force, the minimum velocity of the bulge so that it can emerge from the other side of the sphere is

A hollow metallic sphere of radius 10 cm is given a charge of 3.2 xx 10^(-9) C. The electric intensity at a point 4 cm from the center is

If a charged spherical conductor of radius 10 cm has potential V at a point distant 5 cm from its centre, then the potential at a point distant 15 cm from the centre will be

Find the fluz f the electric field through a spherical surface of radius R due to a charge of 10^(-7) C at the centre and another equal charge at a point 2R away from the centre (figure ).

A ring of radius a contains a charge q distributed. uniformly ober its length. Find the electric field at a point. on the axis of the ring at a distance x from the centre.

A spherical shell of radius 10 cm is carrying a charge q. If the electric potential at distances 5 cm, 10 cm and 15 cm from the centre of the spherical shell is V_(1), V_(2) and V_(3) respectively, then

If a charged spherical conductor of radius 5 cm has potential V at a point distant 5 cm its centre, then the potential at a point distant 30 cm from the centre will be