A charge of `+ 7 mu C` is placed at the centre of two concentric spheres with radius 2.0 cm and 4.0 cm respectively. The ratio of the flux through them will be.

A charge of 6q is placed at the centre of a cube of side 2cm. What is the electric flux passing through two opposite faces of the cube?

State the formula and unit of electric dipole moment. A charge of 50 muC is kept at the centre of a sphere of radius 0.1m. What is the flux through the sphere?

Two point charges of A = + 5.0 mu C and B = -5.0 mu C are separated by 5.0 cm. A point charge C = 1.0 mu C is placed at 3.0 cm away from the centre on the perpendicular bisector of the line joining the two point charges. The charge at C will experience a force directed towards A. point A B. point B C. a direction parallel to line AB D. a direction along the perpendicular bisector

Two solutions have the ratio of their concentrations 0.4 and ratio of their conductivities 0.216. The ratio of their molar conductivities will be

Select and write the correct answer:- Two capillary tubes of radii 0.1 cm and 0.2 cm are dipped in the same liquid. The ratio of heights through which the liquid will rise in the tubes is

The diameter and thickness of a hollow metallic sphere are 12 cm and 0.01 m respectively. The density of the metal is 8.88 gm per cm^3 . Find the outer surface area and mass of the sphere.

Two charge of magnitudes - 4Q and + 2Q are located at points (2a, 0) and (5a, 0) respectively. What is the electric flux due to these charges through a sphere of radius 4a with its centre at the origin?

The electric field intensity at a point at a distance of 1metre from the centre of a charged sphere of radius 25 cm is 10^4 N/C . Find the surface density of charge on the surface of the sphere. The sphere is situated in air .

A metallic sphere A isolated from ground is charged to + 50 mu C . This sphere is brought in contact with other isolated metallics sphere B of half the radius of sphere A.The charge on the two sphere will be now in the ratio.