The potential energy of a body of mass 3 kg on the surface of a planet is 54 joule. The escape velocity will be

Potential energy of a 3kg body at the surface of a planet is -54 J , then escape velocity will be :

The magnitude of potential energy per unit mass of the object at the surface of earth is E . Then escape velocity of the object is

The magnitude of potential energy per unit mass of the object at the surface of earth is E . Then escape velocity of the object is

The escape velocity for a body of mass 1 kg from the earth surface is 11.2 "kms"^(-1) . The escape velocity for a body of mass 100 kg would be

At a height H from the surface of earth, the total energy of a satellite is equal to the potential energy of a body of equal mass at a height 3R from the surface of the earth (R = radius of the earth). The value of H is

The potential energy of a body mass m is U=ax+by the magnitude of acceleration of the body will be-

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 ratio of the weights of a body on the Earth's surface to that on the surface of a planet is 9 : 4 . The mass of the planet is (1)/(9) th of that of the Earth, what is the radius of the planet ? (Tale the planets to have the same mass density).

The ratio of the weight of a body on the Earth’s surface to that on the surface of a planet is 9 : 4. The mass of the planet is 1/9 of that of the Earth. If ‘R’ is the radius of the Earth, then the radius of the planet is where n is ___________ . (Take the planets to have the same mass density)

Calculate the gravitational potential energy of a body of mass 100 kg at a distance of 6 km from the centre of the earth.