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 magnitude of the gravitational field at distance r_1 and r_2 from the centre of a unifrom sphere of radius R and mass m are F_1 and F_2 respectively. Then:

The magnitude of gravitational field at distances r_(1) and r_(2) from the centre of a uniform sphere of radius R and mass M , respectively. Find the ratio of (I_(1))//(I_(2))) if r_(1)gtR and r_(2)gtR .

The magnitude of gravitational potential energy of a body at a distance r from the centre of earth is u. Its weight at a distance 2r from the centre of earth is

Find potential at a point 'P' at a distance 'x' on the axis away from centre of a uniform ring of mass M and radius R .

The correct plot of the magnitude of magnetic field vecB vs distance r from centre of the wire is, if the radius of wire is R

Let V and E represent the gravitational potential and field at a distance r from the centre of a uniform solid sphere. Consider the two statements. A. the plot of V agasinst r is discotinuous B. The plot of E against r is discontinuous.

Figure shows variation of acceleration due to gravity with distance from centre of a uniform spherical planet, Radius of planet is R. What is r_(1) - r_(1)

The gravitational field due to an uniform solid sphere of mass M and radius a at the centre of the sphere is

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

The gravitational potential at a point outside the solid sphere of radius "R" and at a distance of "r" will be :