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

In front of a uniformly charged infinite non-conducting sheet of surface charge density sigma , a point charge q_(0) is shifted slowly from a distance a to b (b gt a) . If work done by external agent is W, then find out relation between the given parameters.

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

Determine and draw the graph of electric field due to infinitely large non-conducting sheet of thickness t and uniform volume charge density rho as a function of distance x from its symmetry plane. (a) x lt t/2 (b) x ge t/2

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

(a) Use Gauss's theorem to find the electric field due to a uniformly charged infinitely Iarge plane thin sheet with surface charge density. Sigma (b) An infinitely large thin plane sheet has a uniform surface charge density + sigma . Obtain the expression for the amount of work done in bringing a point charge q from infinity to a point , distant r, in front of the charged plane sheet.

The electric field near a conducting surface having a uniform surface charge denstiy sigma is given by

Find out electric field intensity due to uniformly charged solid non-conducting sphere of volume charge density rho and radius R at following points : (i) At a distance r from surface of sphere (inside) (ii) At a distance r from the surface of sphere (outside)

An infinitely large non-conducting plane of uniform surface charge density sigma has circular aperture of certain radius carved out from it. The electric field at a point which is at a distance 'a' from the centre of the aperture (perpendicular to the plane) is (sigma)/(2 sqrt(2) in_(0)) . Find the radius of aperture :

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))

Find out energy stored in an imaginary cubical volume of side a in front of a infinitely large non-conducting sheet of uniform charge density sigma .