Consider the situation of figure . The work done in taking a point charge form P to A is` W_A` from P to B is `W_B` from P to C is `W_C.`

The work done in taking a unit positive charge from P to A is W_A and P to B is W_B . Then .

The work done in taking a unit positive charge from P to A is W_A and P to B is W_B . Then .

The work done in taking a unit positive charge from P to A is W_A and from P to B is W_B then the relation between W_A and W_B will be ....

In the given figure, charge Q is placed at the center of a dotted circle. Work done in taking another charge +q from A to B is W_1 and from B to C is W_2 . Which one of the following is correct W_1 > W_2 , W_1 = W_2 and W_1

In the given figure, charge +Q is placed at the centre of a circle. Work done in taking another charge +g from A to B is W_1 and from B to C is W_2. What is the relation between W_1= W_2 .

In the following diagram the work done in moving a point charge from point P to point A, B and C is respectively as W_(A), W_(B) and W_(C) , then

A particle is taken from point A to point B under the influence of a force field. Now it is taken back from B to A and it is observed that the work done in taking the particle from A to B is not equal to the work done in taking it from B to A. If W_(nc) and W_c are the work done by non-conservative and conservative forces present in the system, respectively, DeltaU is the change in potential energy and Deltak is the change in kinetic energy, then

A particle is taken from point A to point B under the influence of a force field. Now it is taken back from B to A and it is observed that the work done in taking the particle from A to B is not equal to the work done in taking it from B to A. If W_(nc) and W_c are the work done by non-conservative and conservative forces present in the system, respectively, DeltaU is the change in potential energy and Deltak is the change in kinetic energy, then

Find the ratio of electric work done in bringing a charge q from A to B(W_(AB)) and that from B to C(W_(BC)) in a sphere of charge Q distributed uniformly throughout its volume.

Find the ratio of electric work done in bringing a charge q from A to B(W_(AB)) and that from B to C(W_(BC)) in a sphere of charge Q distributed uniformly throughout its volume.