[" Auc charge is shifted trom A to B andit is found that work done by an externalforce is 40"u" jin doing so "],[" against electrostatic forces,then find potential difference "V_(A)-V_(B)]

1 mu C charge is shifted from A to B, and it is found that work done by an external force is 40 mu J . In doing so against electrostatic forces, find potential difference V_A - V_B .

1 mu C charge is shifted from A to B, and it is found that work done by an external force is 40 mu J . In doing so against electrostatic forces, find potential difference V_A - V_B .

1 mu C charge is shifted from A to B and it is found that work done by external force is 80 mu J against electrostic forces, find V_(A)-V_(B)

1 mu C charge is shifted from A to B and it is found that work done by external force is 80 mu J against electrostic forces, find V_(A)-V_(B)

1 mu C charge is shifted from A to B and it is found that work done by external force is 80 mu J against electrostic forces, find V_(A)-V_(B)

A charge of 10C is moved in an electric field of a fixed charge distribution from point A to another point B slowly. The work done by external agent in doing so is 100J. What is the potential difference V_(A)-V_(B) ?

A charge of 10C is moved in an electric field of a fixed charge distribution from point A to another point B slowly. The work done by external agent in doing so is 100J. What is the potential difference (V_(A) - V_(B)) ?

A charge of 10C is moved in an electric field of a fixed charge distribution from point A to another point B slowly. The work done by external agent in doing so is 100J. What is the potential difference V_(A)-V_(B) ?

The work done in carrying an electron from point A to a point B in an electric is 10 MJ. The potential difference (V_(B)-V_(A)) is then

Find the work done by some external force in moving a charge q=2muC from infinity to a point where electric potential is 10^4 V.