A gaussian sphere encloses an electric dipole within it. The total flux across the sphere is

A sphere encloses an electric dipole withon it. The total flux across the sphere is

A sphere encloses an electric dipole withon it. The total flux across the sphere is

A surface encloses an electric dipole. The electric flux through the surface is

A surface enclosed an electric dipole, the flux through the surface is -

A surface enclosed an electric dipole, the flux through the surface is -

A Gaussian surface encloses a proton p. The electric field at any point on the surface is vec€ . The flux linked with the Gaussian surface is phi . STATEMENT-1 : When an electron is kept close to this system outside the Gaussian surface, the flux linked with the surface would change. and STATEMENT-2 : The presence of electron will alterthe electric field on the gaussian surface.

A Gaussian surface encloses a proton p. The electric field at any point on the surface is vec€ . The flux linked with the Gaussian surface is phi . STATEMENT-1 : When an electron is kept close to this system outside the Gaussian surface, the flux linked with the surface would change. and STATEMENT-2 : The presence of electron will alterthe electric field on the gaussian surface.

An electric dipole is placed inside a sphere. The centre of dipole is not at the centre of sphere, but the dipole is completely enclosed within the sphere . Calculate total flux through the spherical surface Q is one of the charges and l is distance between charges of dipole.

An arbitrary surface encloses a dipole. What is the electric flux through this surface ?

An arbitrary surface encloses a dipole. What is the electric flux through this surface ?