A charge Q is uniformly distributed over a long rod AB of length L as shown in the figure. The electric potential at the point O lying at distance L from the end A is

Charge Q is uniformly distributed on a dielectric rod AB of length 2l . The potential at P shown in the figure is equal to

A charge q is uniformly distributed along an insulating straight wire of length 2l as shown in Fig. Find an expression for the electric potential at a point located a distance d from the distribution along its perpendicular bisector.

A charge -Q is unformly distributed over a non-conducting semi-circular rod of radius R . The potential at the center is

Electric charge Q is uniformly distributed around a thin ring of radius a. find the potential a point P on the axis of the ring at a distance x from the centre of the ring .

A charge Q is uniformly distributed over a rod of length iota . Condider a hypothetical cube of edge iota with the centre of the cube at one end of the rod. Find the minimum possible flux of the electric field through the entire surface of the cube.

Charge q is uniformly distributed over a thin half ring of radius R . The electric field at the centre of the ring is

A non-conducting wire is bent into a semi-circle of radius R and a charge +Q is uniformly distributed over it as shown in the figure. Find the ratio ((V_(A))/(E_(A))) of the potential (V_(A)) to the magnitude of the electric field (E_(A)) , both evaluated at the other end A of diameter AB that bisects the wire (as shown in the figure)

A charge q is uniformly distributed over a quarter circular ring of radius r . The magnitude of electric field strength at the centre of the ring will be

A rod length l is uniformly charged with charge q. Calculate potential at point P.

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.