An infinite conducting sheet has surface charge density `sigma`. The distance between two points is r. The potential difference `(V_A - V_B)` between these point is

An infinite sheet of charge has surface charge density sigma . The separation between two equipotential surfaces, whose potential differ by V is:

An infinite thin non - conducting sheet has uniform surface charge density sigma . Find the potential difference V_(A)-V_(B) between points A and B as shown in the figure. The line AB makes an angle of 37^(@) with the normal to the sheet. (sin 37^(@)=(3)/(5))

Electric field due to an infinite non-conducting sheet of surface charge density sigma , at a distance r from it is

What is meant by saying that the potential difference between two points is 1 V ?

An infinite sheet of charge has a surfaces charge density of 10^-7C/m^2 . The separation between two equipotential surfce whose potentials differ by 5 V is

The potential difference (V_(A) - V_(B)) between the point A and B in the given figure is

The potential difference (V_(A) - V_(B)) between the point A and B in the given figure is

An infinitely long line of linear charge density lambda is shown in the figure. The potential difference V_(A)-V_(B) between the two points A and B is

An infinite nonconducting sheet of charge has a surface charge density of 10^(7) C//m^(2) . The separation between two equipotential surfaces near the whose potential differ by 5V is

In the part of a circuit shown in figure, the potential different (V_(G) - V_(H)) between points G