The electric flux emanating from a sphere of radius 2m is. If the radius is made four times, without changing the charges enclosed, the electric flux would:

Define electric flux. Write its SI unit. A charge q is enclosed by a spherical surface of radius R. If the radius is reduced to half, how would the electric flux through the surface change ?

(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 charge Q is enclosed by a Gaussian spherical surface of radius R . If the radius is doubled, then the outward electric flux will

The electric flux from a cube of edge l is phi . If an edge of the cube is made 2l and the charge enclosed is halved, its value will be

The total electric flux emanating from a closed surface enclosing an alpha particale (e = electronic chage) is

The electric field due to uniformly charged sphere of radius R as a function of the distance from its centre is represented graphically by

A charge q_0 is distributed uniformly on a ring of radius R. A sphere of equal radius R constructed with its centre on the circumference of the ring. Find the electric flux through the surface of the sphere.

The flux of electric field through the circular region of radius r as shown in the figure is

A hollow sphere of radius 2R is charged to V volts and another smaller sphere of radius R is charged to V/2 volts. Now the smaller sphere is placed inside the bigger sphere without changing the net charge on each sphere. The potential difference between the two spheres would be

A charged particle is suspended at the center of two thin concentric spherical charged shells, made of nonconducting material. Figure shows cross section of the arrangement. Figure (b) gives the net flux phi through a Gaussian sphere centered on the particle, as a function of the radius r of the sphere. , In which range of the values of r is the electric field zero?