The work required to put the four charges from infinity to the position shown here is

Four equal point charges Q each are placed in the xy plane at (0,2), (4,2), (4,-2) and (0, -2) . The work required to put a fifth charge Q at the origin of the coordinate system will be

How much work is required to carry a 6muC charge from the negative terminal to the positive terminal of a 9 V battery?

Six equal point charges q_(0) each are placed at six corners of a regular hexagon of side 'a'. Find out work required o take a point charge 'q' slowly : (i) From infinity to the centre of haxagon. (ii) From infinity to a point on the axis which is at a distance 'sqrt(3) a' from the centre of hexagon. (iii) Does your answer to part (i) and (ii) depends on the path followed by the charge.

Two identical charges are placed at the two corners of an equilateral triangle. The potential energy of the system is U. The work done in bringing an identical charge from infinity to the third vertex is

Two identical charges are placed at the two corners of an equilateral triangle. The potential energy of the system is U. The work done in bringing an identical charge from infinity to the third vertex is

Two identical charges are placed at the two corners of an equilateral triangle. The potential energy of the system is U. The work done in bringing an identical charge from infinity to the third vertex is

For charges A,B,C and D are plasced at the four corners of a squre of a side a. The energy required to take the charges C and D to infinity (they are also infinitely separated from each other )is

The work done in bringing a unit positive charge from infinite distance to a point at distance x from a positive charge Q is W. Then the potential phi at that point is

The minimum velocity v with which charge q should be projected so that it manages to reach the centre of the ring starting from the position shown in figure is

A cone made of insulating material has a total charge Q spread uniformly over its sloping surface. Calculate the work done in bringing a small test charge q from infinity to the apex of the cone. The cone has a slope length L.