Calculate the work done in taking a charge of 0.02 C from A to B if the potential at A is 20 V, and that at B is 30V.

A charge of 8 mC is located at the origin. Calculate the work done in taking a small charge of -2 xx 10^(-9) C from a point P (0, 0, 3 cm) to a point Q (0, 4 cm, 0), via a point R (0, 6 cm, 9 cm)

How much work is done in moving a charge of 2 C across two points having a potential difference 12 V ?

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

(a) Calcualte the potential at a point P due to a charge of 4 xx 10^(-7) C located 9 cm away. (b) Hence obtain the work done in bringing a charge of 2 xx 10^(-9) C from infinity to the point P. Does the answer depend on the path along which the charge is brought?

As per this diagram a point charge +q is placed at the origin O . Work done in taking another point charge -Q from the point A(0, a) to another point B(a, 0) along the staight path AB is:

if 20 J of work has to be done to move an electric charge of 4 C from a point, where potential is 10 volt to another point, where potential is V volt, find the value of V.

IF X joule of work must be done to move electric charge to 4C from a place, where potential is -10V to another place. Where potential is 5V, then the value of X….J.

……………... is the work done in moving a unit positive charge from point A to B in an electric field.

A potential difference of 10 V is needed to make a current of 0.02 A flow through a wire. What potential difference is needed to make a current of 250 mA to flow through the same wire?

If the work done to take 3 C electric charge from one point to another point is 15 J, what will be the potential difference between these two points?