Two point charges `q` and `-q` are separated by the distance `2l`. Find the flux of the electric field strength vector across a circle of radius `R`.

Two point charges q and -q are separated by a distance 2a. Evaluate the flux of the electric field strength vector across a circle of radius R.

Two point charges Q and - Q //4 are separated by a distance X . Then .

Two point charges q and -q are separated by a distance 2l . Find the flux strength vector across the circle of radius R placed with its centre coinciding with the of line joining the two charges in the perpendicular plane.

The force between two points charges +q and -q, separated by a distance r is F. if one charge remains stationary while the other moves around it in a circle of radius r, then the work done is given by

Two points charges q and -2q are placed some distance d apart. If the electric field at the location of q is E, that at the location of -2q is

Two point charges Q and -3Q are placed at some distance apart. If the electric field at the location of Q is E then at the locality of -3Q , it is

Two point charges q and -q are separated by the distance l , both being located at a distance l//2 from the infinite conducting plane. Find : (a) the modulus of the electric force acting on each charge, (b) the magnitude of the electric field strength vector at the midpoint between these charges.

A ball of radius R is uniformly charged with the volume density rho . Find the flux if the electric field strength vector across the balls section formed by the plane located at a distance r_(0) lt R from the centre of the ball.

Point charge q and -q are located at the vertices of a square with diagonals 2l as shown in Fig. Find the magnitude of the electric field strength at a point located symmetrically with respect to the vertices of the square at a distnace x from its centre.

Two charges Q_1 and Q_2 are separated by distance r. Under what conditions will the electric field be zero on the line joining them (i) between the charges (ii) outside the charge?