Gravitational potential difference between surface of a planet and a point situated at a height of 20 m above its surface is 2joule/kg. if gravitational field is uniform, then the work done in taking a 5kg body of height 4 meter above surface will be-:

Gravitational potential difference between a point on surface of planet and another point 10 m above is 4J/kg. Considering gravitational field to be uniform, how much work is donw in moving a mass of 2kg from the surface to a point 5 m above the surface?

The gravitational potential difference between the surface of a planet and a point 20 m above it is 16 J//kg . Calculate the work done in moving a 4 kg body by 8m on a slope of 60^@ from the horizontal.

If an object of mass m is taken from the surface of earth (radius R) to a height 5R, then the work done is

Gravitational potential energy of body of mass m at a height of h above the surface of earth (M = mass of earth , R = radius of earth) is

What is the change in potential energy of a body of mass 10kg when it is taken to a height of 2R from the earth's surface ? G given

The intensity of gravitational field at a point situated at a distance of 8000km form the centre of the earth is 6N//kg . The gravitational potential at that point is -(in joule /kg)

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

What is the gravitational potential energy of the earth and a satellite of mass m=100kg orbiting close to the earth's surface ?

A satellite of mass m is revolving around the Earth at a height R above the surface of the Earth. If g is the gravitational intensity at the Earth’s surface and R is the radius of the Earth, then the kinetic energy of the satellite will be:

A satellite of mass m is revolving around the Earth at a height R above the surface of the Earth. If g is the gravitational intensity at the Earth’s surface and R is the radius of the Earth, then the kinetic energy of the satellite will be: