A test charge q is moved without acceleration from A to C along the path from the point A to B and then from B to C in electric field as shown in fig.
Calculate the potential difference between A and C.

Find potential difference between B and C.

Find potential difference between B and C?

A test charge q is moved without acceleration from A to C along the path from the point A to B and then from B to C in electric field as shown in fig. At which point( of the two) is the electric potential more and why?

In the circuit shown in the figure, calculate the potential difference across the capacitor C.

On moving a charge of 20 C by 2 cm, 2 J of work is done. Then, the potential difference between the points is

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.?

5J work is done in moving a positive charge of 0.5 C between two points. What is the potential difference between these points?

If a point charge +q is taken first from A to C and then from C to B of a circle drawn with another point charge +q as centre as shown in the figure, then along which path more than will be done.

Sketch a graph to show how the charge Q acquired by a capacitance C varies with increase in potential difference between its plates.

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.