Assertion: Two concentric charged spherical shells are given. The potential difference between the shells depends on charge of inner shell.
Reason: Potential due to charge of outer shell remains same at every point inside the sphere.

What is the potential difference between any two points inside a charged spherical shell?

Assertion: Two concentric conducting spherical sheels are charged. The charge on the outer shell is varied keeping the charge on inner shell constant, as s result the electric potential difference between the two sheels does not change. Reason: In the situation of statement-1, the electric field in the region between both the shells depends only on the charge existing on the inner shell.

There are two concentric conducting spherical shells of radii 10 cm and 20 cm. The outer shell is charged to a potential of 50esu while inner shell is earthed. The charge on outer shell is

In the following question a statement of assertion (A) is followed by a statement of reason (R ) A: the potential difference between two concentric sphereical shells depends only on the charge of inner shell R : the electric field in the region in between two shells depedns on the charge of inner shell and electric field is the negative of potential gradient.

Three concentric conducting sphereical shells carry charges +4Q on the inner shell -2Q on the middle shel and +6Q on the outer shell. The charge on the inner surface of the outer shell is

Three concentric conducting sphereical shells carry charges +4Q ot e inner shell -2Q on the middle shel and +6Q on the outer shell. The charge on the inner surface of the outer shell is

There are two concentric conducting spherical shells of radii 10 cm and 20 cm . The outer shell is charged to a potential of 50esu while inner shell is earthed. The charge on outer shell is

Three concentric conducting spherical shells carry charges as : +4Q on the inner shell, -2Q on the middle shell and -5Q on the outer shell. The charge on the inner surface of the outer shell is