[" The flux of the electric "],[" field through a spherical "],[" surface of radius "2m" due "],[" to a charge of "10^(-7)C" kept "],[" at a point "4m" away from "],[" the centre is "]

Find the flux of electric field through a spherical surface of radius R due to a charge of 10^(-7) C at the centre of another equal at a point 2R away from the centre.

Find the flux of the electric field through a spherical surface of radius R due to a charge of 8.85xx10^(-8) C at the centre and another equal charge at a point 3R away from the centre (Given : epsi_(0) = 8.85 xx 10^(-12) units )

Electric charges are distributed in a small volume.The flux of the electric field through a spherical surface of radius 1 m surrounding the total charge is 100V -m .The flux over the concentric sphere of radius 2 m will be:

Electric charges are distributed in a small volume. The flux of the electric field through a spherical surface of radius 20 cm surrounding the total charge is 50 V-m. The flux over a concentric sphere of radius 40 cm will be :

The electric charges are distributed in a small volume. The flux of the electric field through a spherica surface of radius 10 cm surrounding the total charge is 20 V - m . The flux over a concentric sphere of radius 20 cm will be

Electric charge are distributed in a small vouume. The flux of the electric field through a spherical surface of rasius 10cm surrounding the total charge is 25 V m. The flux over a concentric sphere of radius 20 cm will be

A hollow spherical conductor of radius "1m" has a charge of 250 mu C then electric intensity at a point distance of "0.5m" from the centre of the spherical conductor is

Given below are two statements : Statement I : An electric dipole is placed at the centre of a hollow sphere. The flux of electric field through the sphere is zero but the electric field is not zero anywhere in the sphere. Statement II : If R is the radius of a solid metallic sphere and Q be the total charge on it. The electric field at any point on the spherical surface of radius r (lt R) is zero but the electric flux passing through this closed spherical surface of radius r is not zero. In the light of the above statements, choose the correct answer from the options given below :