Figure represents a square carrying charges `+q,+q,-q,-q` at its four corners as shown. Then the potential will be zero at points

Four identical point charges q are placed at four corners of a square of side a. Find the potential energy of the charge system. .

Four electric charges +q, +q, -q and -q are placed at the corners of a square of side 2L (see figure). The electric potential at point A , mid-way between the two charges +q and +q , is

Two equal point charges Q=+sqrt(2) mu C are placed at each of the two opposite corners of a square and equal point charges q at each of the other two corners. What must be the value of q so that the resultant force on Q is zero?

It is requird to hold four equal point charges +q in equilibrium at the corners of a square. Find the point charge that will do this, if placed at the centre of the square.

A charge Q is placed at each corner of a cube of side a. The potential at the centre of the cube is

Four charge Q, q, Q and q are kept at the four corners of a square as shown below. What is the relation between Q and q, so that the net force on a charge q is zero ?

Four positive charges (2sqrt2-1)Q are arranged at the four corners of a square. Another charge q is placed at the centre of the square. Resulting force acting on each corner charge is zero if q is

A charge Q is place at each of the opposite corners of a square. A charge q is placed at each of the other two corners. If the net electrical force on Q is zero, then Q//q equals:

Four identical charges q are placed at the corners of a square of side a. Find the potential energy of one of the charges due to the remaining charges. .

In front of an earthed conductor a point charge +q is placed a shown in figure