Two uniform solid spheres of same materical and same radius are touching each other density is `'rho'` then find out gravitational force between them .

Spheres of the same metarial and same radius r are touching each other. Show that grevitational force between them is directly proportional to r^(4) .

Two spheres of the same material and same radius "r" are touching each other. If the gravitational force of attraction between them is directly proportional to r^4, then the value of n is

Two solid sphere of same size of a metal are placed in contact by touching each other prove that the gravitational force acting between then is directly proportional to the fourth power of their radius.

Radius of the earth is R and the mean density is rho . Find out the gravitational potential at the earth's surface

Two metal spheres each of radius r are kept in contact with each other. If d is the density of the material of the sphere,then the gravitational force between those spheres is proportional to

A uniform ring of mass m is lying at a distance sqrt(3) a from the centre of mass M just over the sphere (where a is the radius of the ring as well as that of the sphere). Find the magnitude of gravitational force between them .

Two spheres of uniform density have masses 10 kg and 40 kg. The distance between the centres of the spheres is 200 m. Find the gravitatioanl force between them.

Three uniform spheres each of mass m and diameter D are kept in such a way that each touches the other two, then magnitudes of the gravitational force on any one sphere due to the other two is

Two leads spheres of same radii are in contact with eacth other. The gravitational force of attraction between them is F . If two leads spheres of double the previous radii are in contanct with eacth other, the gravitational force of attraction between them now will be