The ratio of the binding energies of a stationary body at height equal to the radius of the earth and on its surface is

The acceleration due to gravity on the Earth's surface is about 6 times that on the Moon. The radius of the Moon is nearly (4)/(18) times that of the Earth. The ratio of the binding energy of a body at rest on the Earth's surface to that on the Moon's surface is about

The acceleration due to gravity on the surface of the earth is g. If a body of mass m is raised from the surface of the earth to a height equal to the radius R of the earth, then the gain in its potential energy is given by

The acceleration due to gravity on the surface of the earth is g. If a body of mass m is raised from the surface of the earth to a height equal to the radius R of the earth, then the gain in its potential energy is given by

A body projected from the surface of the earth attains a height equal to the radius of the earth. The velocity with which the body was projected is

A body projected from the surface of the earth attains a height equal to the radius of the earth. The velocity with which the body was projected is

A body projected from the surface of the earth attains a height equal to the radius of the earth. The velocity with which the body was projected is

The ratio of binding energy of a satellite at rest on earth's surface to the binding energy of a satellite of same mass revolving around of the earth at a height h above the earth's surface is (R = radius of the earth).