The work done to move a charge along an equipotential from A to B

The work done in moving a positive charge on an equipotential surface is:

No work is done in moving a test charge over an equipotential surface. Explain, why.

In an electric field the work done in bringing a 2 coulomb charge from infinity to a point a is 10 joules and in bringing the same charge to some another point B is 20 joule find the potential difference between two points A and B what would be the work done if the same charge is brought directly from A to B.

Calculate the work done in moving a charge of 2C through a potential differerence of 5 v

Work done to move a charge along a closed path inside an electric field is always zero. Use this fact to prove that it is impossible to produce an electric field in which all the lines of force would be parallel straight lines and the density of their distribution would constantly increase in a direction perpendicular to the lines of force as shown in Figure.​

Show that the work done in moving a unit charge along a closed path is zero.

Prove that the work done in moving a unit charge along a closed path in an electric field is zero?

100 joule of work must be done to move a charge of -200 C from the point A to point B. What is the potential difference.?