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

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

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 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 flux of electric field through the circular region of radius r as shown in the figure is

Two point charges +Q and -Q are separated by a certain distance. The resultant electric field is parallel to the line joining the charges at the points

A charge Q is placed at the centre of a cube. Find the flux of the electric field through the six surfaced of the cube.

A point charge q is placed at origin. Find the flux of electric,produced due to this charge, through a circle of radius R lying in y-z plane. The centre of the circle lies at (x,0).

(A)Two point charges q_1 and q_2 are kept r distance apart in a uniform external electric field vecE . Find the amount of work done in assembling this system of charges. (B) A cube of side 20 cm is kept in a region as shown in the figure. An electric field vecE exists in the region such that the potential at a point is given by V = 10x + 5 , where V is in volt and x is in m. Find the electric field vecE and (ii) total electric flux through the cube.

Two charges e and 3e are placed at a distance r. The distance of the point where the electric field intensity will be zero is

Two point charges Q and -3Q are placed at some distance apart. If the electric field at the location of Q is vec (E ) , the field at the location of - 3Q is