A body of supercondense material with mass twice the mass of earth but size very small compared to the size of earth starts from rest from `h lt lt R` above the earth's surface. It reaches earth in time

A small body of superdense material, whose mass is twice the mass of the earth but whose size is very small compared to the size of the earth, starts form rest at a height H lt lt R above the earth's surface, and reaches the earth's surface in time t . then t is equal to

A small block of superdense material has a mass (M)/(3) , where M is the mass of earth . It is released from rest from a height h ( h lt lt radius of earth) from the surface of earth . The speed of the block at a height (h)/(2) is

A satellite S is moving in an elliptical orbit around the earth. The mass of the satellite is very small compared to the mass of the earth.

The mass of a planet is twice the mass of earth and diameter of the planet is thrie the diameter of the earth, then the acceleration due to gravity on the planet's surface is

At what height, the weight of the body is same as that at same depth from the earth's surface (take, earth's radius = R)

Find work done in shifting a body of mass m from a height h above the earth's surface to a height 2h above the earth's surface..

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).

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).

The potential energy of a satellite of mass m revolving at height R above the surface of the earth where R= radius of earth is

A body hanging from a spring stretches it by 2 cm at the earth's surface. How much will the same body stretch the spring at a place 800 cm above the earth's surface? Radius of the earth is 6400 km .