Rank the work required to assemble the charge distribution below from leats to greatest. In all cases, the separation between the middle charge and the outer charges are the same. Use a reference of zero potential energy at `oo`.

When the separation between two charges is increase the electric potential energy of the charges.

When the separation between two charges is increased, the electric potential energy of the charges

Suggest a configuration of three point charges separated by finite distances that has zero electric potential energy.

Which graph(s) show(s) the correct distribution of potential (at the points between them) due to two like point charges. [X= distance from the charge on left]

The work require to displace charge q from infinity to given point is W, then electric potential at that point is

Which of the following statement(s) is/are correct? If the electric field due to a point charge varies as r^(-2.5) instead of r^(-2),then the Gauss law will still be valid. The Gauss law can be used to calculate the field distribution around an electric dipole. If he electric field between two point charges is zero somewhere,then the sign of the two charges is the same. The work done by the external force is moving a unit positive charge from point A at potential "V_(A)" to point B at potential "V_(B)" is,(V_(B)-V_(A))

Two positive point charges are separated by a distance R. If the distance between the charges is reduced to R/2, what happens to the total electric potential energy of the system?

Two point charges of +q each are placed at two diagonally opposite corners of a square. Another two point charges of -q charge each are placed at the two remaining corners. Take the edge length of square equal to l. Calculate (i) work needed to move these charges slowly from an infinite separation to this given configuration. (ii) Assume that four charges at corners of the square are held fixed. Another charge Q is to be moved from infinity to the centre of this square slowly. What additional work is required to do so?

A parallel plate capacitor having plate area A and separation between the plates d is charged to potential V .The energy stored in capacitor is ....???