A charge Q is placed at a distance `alpha/2` above the centre of a horizontal, square surface of edge a as shown in figure (30-E1). Find the flux of the electric field through the square surface.

A charge Q is placed at a distance alpha/2 above the centre of a horizontal, spuare surface of edge a as shown in figure (30-E1). Find the flux of the electric field through the square surface.

A point charge q is placed at a distnace a/2 directly above the centre of a square of side a, as shown figure. Find the magnitude of the electric flux through the square.

Find the flux of point charge q through the square surface ABCD as shown

A charge Q is placed at the centre of a cub. Find the flux of the electric field through the six surfaced of the cube.

(a) Define electric flux. Is is the scalar or a vector quantity? A point charge q is at a distance of d//2 directly above the centre of a square of side d, as shown in the figure. Use Gauss's law to obtain the expression for the electric flux through the square. (b) If the point charges is now moved to a distance 'd' from the centre of the square and the side of the square is doubled, explain how the electric flux will be affected.

A point charge of +12 muC is at a distance 6 cm vertically above the centre of a square of side 12 cm as shown in figure. The magnitude of the electric flux through the square will be _______ xx10^3Nm^(2)//C .

A point charge +20muC is at a distance 6 cm directly above the centre of a square of side 12 cm as shown is figure. The magnitude of electric flux through the square is

A point charge 'q' is placed at a distance l' (on th y -axis) vertically above the surface which lies in the xz plane as shown in the figure. The flux of electric field passing through the plate is

A charge q is placed at the centre of the cubical vessel (with one face a open) as shown in figure. The flux of the electric field through the complete vessel is