Potential at a point A is ` 3` volt and at a point `B` is ` 7 V`, an electron is moving towards `A` form `B`.work done

In an electric field. electric potential at point A is 40 V and that at point B is 90 V. The work to be done in taking 2 C charge from point A to point B is …………….. .

A mass of 10 kg is at a point A on a table. It is moved to a point B. If the line joining A and B is horizontal, what is the work done on the object by the gravitational force? Explain your answer.

In an electric field, electric potential at a point is 10V. How much work has to be done to bring 0.5 C electric charge from infinite distance to that pOint?

Potentials of points P and Q are 10 V and - 4 V respectively. Work done in taking 100 electrons from P to Q ........

(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?

Two charges - q and + q are located at points A(0, 0, - a) and B(0, 0, + a) respectively, work done in moving small test charge from point P(7, 0, 0) to Q(- 3, 0, 0) is ...... .

A car of mass 1000kg moves from point A to B . If kinetic energy of car at point A is 100KJ and at B is 220 Kj . Then find work done by friction force on the car ?

Potenlials of points P and Q are 10V and -4 V respectively. Work done in taking 100 electrons from P to Q ........

When a unit positive charge moves from one point to another point in an electric field, work done on it ......