The electric field on two sides of a thin sheet of charge is shown in the figure. The charge density on the sheet is

The electric field on two sides of a large charged plate is shown in figure. The charge density on the plate in SI units is given by (epsilon_0 is the permittivity of free space in SI units).

A charged ball B hangs from a silk thread S , which makes an angle theta with a large charged conducting sheet P , as shown in the figure. The surface charge density sigma of the sheet is proportional to

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

If linear charge density of a wire as shown in the figure is lambda

Two connected charges of +q and -q respectively are at a fixed distance AB apart in a non uniform electric field whose lines of force are shown in the figure The resultant effect on the two charges is

A large charged metal sheet is placed in a uniform electric field, perpendicular to the electric field lines. After placing the sheet into the field, the electric field on the left side of the sheet is E_1 = 5 xx 10^5 Vm^(-1) and on the right it is E_2 = 3 xx 10^5 V m^(-1) . The sheet experiences a net electric force of 0.08 N. Find the area of one face of the sheet. Assume the external field to remain constant after introducing the large sheet. Use (1/(4piepsilon_0)) = 9 xx 10^(9) Nm^(2)C^(-2)

A charge particle q is projected in an electric field produced by a fixed point charge Q as shown in figure. Mark the correct statements.

From a 16cmxx8cm rectangular uniform plane sheet, exactly one quarter of the sheet is removed as shown in figure. If the origin be taken at the centre of the sheet considered as shown in the figure the coordinates of the centre of mass of the remaining sheet is

The electric field inside a spherical shell of uniform surface charge density is

Calculate the electric field at origin due to infinite number of charges as shown in figure below.