Electric field intensity at points in between and outside two thin separated parallel sheets of infinite dimension with like charges of same surface charge density (`sigma`) are _____ and _____ respectively.

On which points the electric field intensity of the dipole is parallel to the line joining the two charges of the electric dipole ?

Obtain the expression of electric field by a straight wire of infinite length and with linear charge density lambda .

Let E_1(r) , E_2(r) and E_3(r) be the respectively electric field at a distance r from a point charge Q , an infinitely long wire with constant linear charge density lambda , and an infinite plane with uniform surface charge density sigma . If E_1(r_0)=E_2(r_0)=E_3(r_0) at a given distance r_0 , then

Two spheres A and B of radius a and b respectively are at the same potential. The ratio of the surface charge density of A to B is

Electric force is exerted between two separated charges because electric charge is ...... Of matter.

A charged ball from a silk thread, which makes an angle theta with a large charged conducting sheet. The surface charge density sigma of the sheet is proportional to…..

Obtain the expression of electric field at any point by continuous distribution of charge on a surface.

A parallel plate capacitor is charged with a battery and then separated from it. Now if the distance between its two plates is increased, what will be the changes in electric charge, potential difference and capacitance respectively ?

When two concentric shells are connected by a thin conducting wire, whole of the charge of inner shell transfers to the outer shell and potential difference between them becomes zero. Surface charge densities of two thin concentric spherical shells are sigma and -sigma respectively. Their radii are R and 2R . Now they are connected by a thin wire. Suppose electric field at a distance r (gt 2R) was E_(1) before connecting the two shells and E_(2) after connecting the two shells, then |E_(2)/E_(1)| is :-

When two concentric shells are connected by a thin conducting wire, whole of the charge of inner shell transfers to the outer shell and potential difference between them becomes zero. Surface charge densities of two thin concentric spherical shells are sigma and -sigma respectively. Their radii are R and 2R . Now they are connected by a thin wire. Suppose electric field at a distance r=(3R)/2 was E_(1) before connecting the two shells and E_(2) after connecting the two shells, then |E_(2)/E_(1)| is :-