Calculate the potential at a point on the perpendicular bisector of uniformly charged thin rod (linear density of charge =`lambda`) of length 2l at a distance a from the centre of the rod.

Find the electric field at a point P on the perpendicular bisector of a uniformly charged rod. The lengthof the rod is L, the charge on it is Q and the distance of P from the centre of the rod is a.

Find : (i)Electric field intensity due to an infinitely long uniformly charged, straight conductor , at a perpendicular distance d from rod. (ii)Electric field intensity at a point on perpendicular bisector of uniformly charged rod of length l and charge Q at a distance d from the centre of rod.

Find the electric field at point P (as shown in figure) on the perpendicular bisector of a uniformly charged thin wire of length L carrying a charge Q. The distance of the point P from the centre of the rod is a =sqrt3/2L .

The electrostatic potential of a uniformly charged thin spherical shell of charge Q and radius R at a distance r from the centre

Consider a circular ring of radius r, uniformly charged with linear charge density lambda . Find the electric potential aty a point on the exis at a distance x from the centre of the ring. Using this expression for the potential, find the electric field at this point.

Find centre of mass of given rod of linear mass density lambda=(a+b(x/l)^2) , x is distance from one of its end. Length of the rod is l .

If the linear density of a rod of length L varies as lambda = A+Bx , find the position of its centre of mass .

The electric field at a point P which is at a distance l on the perpendicular bisector of a uniformly charged wire of length 1 , charge Q=(Q)/(2 pi varepsilon_(0)l^(2)sqrt(k)) where k = ?

What is the electric field intensity at any point on the axis of a charged rod of length 'L' and linear charge density lambda ? The point is separated from the nearer end by a.

Two mutually perpendicular long straight conductors carrying uniformly distributed charges of linear charges densities lambda_(1) and lambda_(2) are positon at a distance a from each other. How does the interaction between the rods depends on a ?