A rod of length l is placed along x - axis. One of its ends is at the origin. The rod has a non - uniform charge density `lambda=(a)/(x)`, a being a positive constant. The electric potential at the point P (origin) as shown in the figure is

A rod of length 'l' is placed along x-axis. One of its ends is at the origin. The rod has a non-uniform charge density lambda= a, a being a positive constant. Electric potential at P as shown in the figure is -

An electric dipole is placed along x -axis with its centre at origin:

A rod of length L lies along the x-axis with its left end at the origin. It has a non-uniform charge density lamda=alphax , where a is a positive constant. (a) What are the units of alpha ? (b) Calculate the electric potential at point A where x = - d .

A non–uniform thin rod of length L is placed along x-axis as such its one of ends at the origin. The linear mass density of rod is lambda=lambda_(0)x . The distance of centre of mass of rod from the origin is :

A rod length L and mass M is placed along the x -axis with one end at the origin, as shown in the figure above. The rod has linear mass density lamda=(2M)/(L^(2))x, where x is the distance from the origin. Which of the following gives the x -coordinate of the rod's center of mass?

A rod lies along the X-axis with one end at the origin and the other at x rarr oo . It carries a uniform charge lambda Cm^(-1) . The electric field at the point x=-a on the axis will be

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 rod is placed along the line, y=2x with its centre at origin. The moment of inertia of the rod is maximum about.

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

A non-conducting semi circular disc (as shown in figure) has a uniform surface charge density sigma . The ratio of electric field to electric potential at the centre of the disc will be