In the above situation, calculate the work done against the electric field in moving the charge Q from the third vertex to the centroid of the triangle if charges -q and +q are placed on both the vertices of the equilateral triangle.

Three charges 2q, -q, and -q are located at the vertices of an equilateral triangle. At the center of the triangle,

The electric field at the centroid of an equilateral triangle carrying an equal charge q at each of the vertices is :

A point charge +Q is placed at the centroid of an equilateral triangle. When a second charge +Q is placed at a vertex of the triangle, the magnitude of the electrostatic force on the central charge is 8 N. The magnitude of the net force on the central charge when a third charge +Q is placed at another vertex of the triangle is

Three charges each of value q are placed at the corners of an equilateral triangle. A fourth charge Q is placed at the centre of the triangle. If Q = -q :

Calculate the electrostatic potential energy for a system of three point charges q placed at the corners of an equilateral triangle of side ‘a’.

Three equal charges, each +q are placed on the corners of an equilatreal triangel . The electric field intensity at the centroid of the triangle is

If 3 charges are placed at the vertices of equilateral triangle of charge 'q' each. What is the net potential energy, if the side of equilateral Delta is l cm ?

Consider the charges q,q and -q placed at the vertices of an equilateral triangle of each side l. What is the force on each charge ?

As shown in the figure, charges +q and -q are placed at the vertices B and C of an isoscles triangle. The potential at the vertex A is