The magnitude of the gravitational field at distance `r_(1)` and `r_(2)` from the centre of a uniform, sphere of radius R and mass M are `F_(1)` and `F_(2)` respectively then-

The correct variation of gravitational potential V with radius r measured from the centre of earth of radius R is given by

Charges Q, 2Q and 4Q are uniformly distributed in three dielectric solid spheres 1, 2 and 3 of radii R//2 , R and 2R respectively, as shown in figure. If magnitude of the electric fields at point P at a distance R from the centre of sphere 1,2 and 3 are E_1, E_2 and E_3 respectively, then

The magnitude of gravitational potential energy at a distance r from the centre of earth is U, then show the weight at this point in the form of U.

Dependence of intensity of gravitational field (E) of earth with distance (r) from centre of earth is correctly represented by

The distance between two particles of masses m_(1)andm_(2) is r. If the distance of these particles from the centre of mass of the system are r_(1)andr_(2) respectively, then show that r_(1)=r((m_(2))/(m_(1)+m_(2)))andr_(2)=r((m_(1))/(m_(1)+m_(2)))

Calculate the gravitational potential at the centre of base of a solid hemisphere of mass M , radius R .

Following curve shows the variation of intesity of gravitational field (vec(I)) with distance from the centre of solid sphere(r) :

Which one of the following plots represents the variation of the gravitational field on a particle with distance r due to a thin spherical shell of raduis R ? ( r is measured from the centre of the spherical shell).