A spherical shell is cut into two pieces along a chord and separated by large distance as shown in figure. For points `A` and `B`, where `V` and `E` are gravitational potential and field respectively

A spherical shell is cut into two pieces along a chord as shown in the figure. P is a point on the plane of the chord. The gravitational field at P due to the upper part is I_(1) , and that due to the lower part is I_(2) . What is the relation between them?

A spherical shell is cut into two pieces along a chord as shown in the figure. P is a point on the plane of the chord. The gravitational field at P due to the upper part is I_(1) , and that due to the lower part is I_(2) . What is the relation between them?

A spherical shell is cut into two pieces along a chord as shown in the figure. P is a point on the plane of the chord. The gravitational field at P due to the upper part is I_(1) , and that due to the lower part is I_(2) . What is the relation between them?

An insulating spherical shell of uniform surface charge density is cut into two parts and place at a distance d apart as shown in figure. vecE_p and vecE_Q denote the electric fields at P and Q, respectively. As d (i.e. PQ) rarr oo

Three point masses 'm' each are kept at three verties of a square pf side 'a' as shown in figure. Find gravitation potential and field strength at point O. .

In figure two points A and B are located in a region of electric field . The potential difference V_(B)-V_(A) is

A and B are two concentric spherical shells. If A is given a charge +q while B is earthed as shown in figure then

A and B are two concentric spherical shells. If A is given a charge +Q while B is earthed as shown in figure then

Let V and E denote the gravitational potential and gravitational field at a point. It is possile to have

Two concentric speherical shells are as shown in figure. The magnitude of gravitational potential (V) and field strength (E ) vary with distance ( r) from centre as