12 j of work has to be done against an existion electric field to take a charge of 0.01 C from A to B. How much is th potential difference `V_B - V_A?`

Find V_(ba) , if 12 J of work has to be done against an electric field to take a charge of 10^-2 C from a to b.

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

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

The work done in carrying a charge of 5 mu C form a point A to a point B in an electric field is 10mJ . The potential difference (V_(B) - V_(A)) is then

If 50 joule of work must be done to move an electric charge of 2 C from a point, where potential is V volt, the value of V is

In figure two points A and B are located in a region of electric field . The potential difference V_(B)-V_(A) is

What is the amount of work done in moving a charge of 15 between two points kept at a potentia difference of 1.2 V?

In moving from A to B along an electric field line, the work done by the electric field on an electron is 6.4 xx 10^-19 J . If phi_1 and phi_2 are equipotential surfaces, then the potential difference V_C - V_A is. .

A uniform electric field is present in the positive x - direction. If the intensity of the field is 5 NC^-1 then find the potential difference (V_B - V_A) between two points A (0 m, 2 m) and B (5 m, 3 m).

Two identical point charges are placed at A and B. The potential difference V_0-V_C is ( k= 1/4π epsilon_0 )