A large plane sheet of charge having surface charge density `5xx10^(-16) cm^(-2)` lies in XY plane. Find electric flux through a circular area of radius 1cm Given normal to the circular area makes an angle of `60^(@)` with Z-axis.

A large plane sheet of charge having surface charge density 5.0 xx 10^-16 C m^-2 lies in the XY-plane . Find the electric flux through a circular area of radius 0.1 m , if the normal to the circular area makes an angle of 60^@ with the Z-axis. Given that epsilon_0 = 8.85 xx 10^-12 C^2N^-m^-2

A large plane charge sheet having surface xharge density sigma=2.0 xx 10^(-6) C m^(-2) lies in the x-y plane. Find the flux of the electric field through a circular area of radius 1 cm lying completely in the region where x, y, z are all positive and with its normal making an angle of 60^0 with the z-axis.

A large plane charge sheet having surface xharge density sigma=2.0 xx 10^(-6) C m^(-2) lies in the x-y plane. Find the flux of the electric field through a circular area of radius 1 cm lying completely in the region where x, y, z are all positive and with its normal making an angle of 60^0 with the z-axis.

A large plane charge sheet having surface xharge density sigma=2.0 xx 10^(-6) C m^(-2) lies in the x-y plane. Find the flux of the electric field through a circular area of radius 1 cm lying completely in the region where x, y, z are all positive and with its normal making an angle of 60^0 with the z-axis.

A large conducting plane has a surface charge density 1.0xx10^(-4)c m ^(-2) . Find the electrostatic energy stored in a cubical volume of edge 1.0 cm in front of the plane .

Find the surface area of circular sphere having radius 7 cm.

A charged particle having a charge of -3muC is placed close to a sheet of charge having a surface charge density 5xx10^-6 Cm^-2 . Find the force of attraction between the particle and the sheet of charge.

The electric flux through a hemispherical surface of radius R placed in a uniform electric field E parallel to the axis of the circular plane is

The electric field in a region is given by vecE = 5.0 N//C . Calculate the electric flux Through a square of side 10.1 cm in the following cases: (iii) The normal to the square makes an angle of 45^@ with the Z axis.