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

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

An infinite nonconducting sheet has a surface charge density of sigma= 0.10 mu C//m^2 on one side. How far apart are equipotential surfaces whose potentials differ by 50 V?

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 plane sheet of charge density 10^(-8) Cm^(-2) is held in air. In this situation how far apart are two equipotenitial surfaces, whose p.d is 5 V ?

An infinite cylinder of radius r_(o), carrying linear charge density lamda. The equation of the equipotential surface for the cylinder is

An infinite nonconducting sheet with a uniform surface charge density sets up parallel equipotential surfaces. Any pair of surfaces differing by 25.0 V are separated by 8.80 mm. (a) What is the magnitude of the surface charge density? (b) If an electron is released near the sheet, does it tend to move from higher to lower potential or vice versa ?

Electric field intensity at a point due to an infinite sheet of charge having surface charge density sigma is E .If sheet were conducting electric intensity would be

Two charged spheres of radii R_(1) and R_(2) having equal surface charge density. The ratio of their potential is

An infinite changed sheet has 10^(-7) Cm^(-2) surface density of change .How far apart are the equipotential surface differing by 5 voits ? [Hint: Elwctri intensity =rate of fall of potential .]

When the separation between two charges is increase the electric potential energy of the charges.