A point charge 'q' is placed at the centre of left circular end of a cylinder of length l=4cm and radius R=3 cm shown. Then the electric flux through the curved surface of the cylinder is

A point (sound generating) source of power 6.5 milli watts, is placed at the centre of the hollow cylinder of length 24cm and its radius of cross-section 5cm. Then the power passing through the lateral surface of the cylinder in milli watts is

A charge 10 muC is placed at the centre of a hemisphere of radius R = 10 cm as shown. The electric flux through the hemisphere (in MKS units)is

A charge q is placed at the centre of the open end of a cylindrical vessel . The flux of the electric field through the surface of the vessel is

A point charge q is placed at a distance d from the centre of a circular disc of radius R. Find electric flux flowing through the disc due to that charge

An infinite line charge is at the axis of a cylinder of length 1 m and radius 7 cm. If electric field at any point on the curved surface of cylinder is 250" NC"^(-1) , then net electric flux through the cylinder is

A charge 'Q' is placed at the centre of a hemispherical surface of radius 'R'. The flux of electric field due to charge 'Q' through the surface of hemisphere is

A short electric dipole (which consists of two point charges, +q and -q ) is placed at the centre O and inside a large cube (ABCDEFGH) of length L, as shown in figure. The electric flux, emanating through the cube is :

A point charge +q is placed at the centre of curvature of a hemisphere. Find flux through the hemispherical surface.

A charge of 8.85C is placed at the centre of a spherical Guassian surface of radius 5cm. The electric flux through the surface is

A short electric dipole (which consists of two point charges, + q and -9) is placed at the centre o and inside a large cube (ABCDEFGH) of length L, as shown in figure below. The electric flux, emanating through the cube is :