Two point charges (+e) and (-e) are kept inside a large metallic cube without touching its sides. Electric flux emerging out of the cube is :

A closed surface in vacuum encloses charges -q and +3q . The total electric flux emerging out of the surface is:

A charge +q is placed at the mid point of a cube of side L. The electric flux emerging from cube is

Two point charges 17.7 mu C and -17.7 mu C, separated by a very small distance, are kept inside a large hollow metallic sphere. Electric flux emanating through the sphere is:

A positive point charge Q is bruought mear an isolated metal cube.

(A): A point charge is lying at the centre of a cube of each side. The electric flux emanating from each surface of the cube is (1^(th))/(6) total flux. (R ): According to Gauss theorem, total electric flux through a closed surface enclosing a charge is equal to 1//epsi_(0) times the magnitude of the charge enclosed.

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 :

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 charge q is placed at the centre of a cube. What is the electric flux passing through the cube?

A charge q muC is placed at the centre of a cube of a side 0.1m , then the electric flux diverging from each face of the cube is

A charge Q is situated at the centre of a cube. The electric flux through one of the faces of the cube is