Match the Column I with Column II
For a satellite in circular orbit

(where `M_(E)` is the mass of the earth , m is the mass of the satellite and r is the radius of the orbit )

Energy of a satellite in circular orbit is E_(0) . The energy required to move the satellite to a circular orbit of 3 times the radius of the initial orbit is

A satellite moves around the earth in a circular orbit with speed v . If m is the mass of the satellite, its total energy 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.

An earth satellite of mass m revolves in a circular orbit at a height h from the surface of the earth. R is the radius of the earth and g is acceleration due to gravity at the surface of the earth. The velocity of the satellite in the orbit is given by

An artifical satellite of mass m travels at a constant speed in a circular orbit of radius R around Earth (mass M). What is the speed of the satellite ?

An ariticial satellite (mass =M ) of earth revolves in a circular orbit whose radius is 4 times the radius of the earth. Assume that in the spherical region between the radius 4R_(e ) and 2R_(e ) there is cosmic dust. If mass of the satellite is increasing at the rate of u per sec. Find the time in which satellite will come to orbit of radius 2R_(e ) .

It is known that the time of revolution T of a satellite around the earth depends on the universal gravitational constant G, the mass of the earth M, and the radius of the circular orbit R. Obtain an expression for T using dimensional analysis.

A satellite of mass m_0 is revolving around the earth in circular orbit at a height of 3R from surface of the earth the areal velocity of satellite is (where R is radius of earth and M_0 is the mass of earth)