What will be the gravitational potential on the surface of a planet of mass M and radius R ?

What will be the gain in the potential energy of an object of mass m raised from the surface of the earth to a height equal to the radius R of the earth ?

A body weight 90 kgf on the surface of earth. How much will it weight on the surface of a planet whose mass is 1/9 and radius 1/2 that of the earth ?

The change in the gravitational potential energy when a body of mass m is raised to a height nR above the surface of the earth is (here R is the radius of the earth)

If both the radius and the mean density of a planet are half the radius and the mean density of the earth, what will be the acceleration due to gravity on the surface of that planet ? Given that the acceleration due to gravity on the earth's surface =980 cm*s^(-2)

Escape speed on the surface of a planet varies with the mass m of a body as

Show that the gravitational potential at a point, distance r from the mass M is given by V =-(GM/r)

Gravitational acceleration on the surface of a planet is (sqrt(6)//11) g, where g is the gravitational acceleration on the surface of the earth. The average mass density of the planet is 2/3 times that of the earth. If the escape speed on the surface of the earth is taken to be 11 km*s^(-1) , the escape speed on the surface of the planet in km*s^(-1) will be

Derive an expression for Gravitational potential above the surface of the earth.

A body weight 63 N on the surface of the earth. What is the gravitational force on it due to the earth at a height equal to half the radius of earth ?