The speed `v` of a satellite moving in a circular orbit around the earth depends on the gravitational constant `G`, mass of the earth `m_(e)` and radius of circular orbit `r`. Estabish the relation using dimensions.

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.

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.

It is known that the time of revolution T of a satelite 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 is moving with constant speed V in a circular orbit around earth. The kinetic energy of the satellite is

A satellite whose mass is M , is revolving in circular orbit of radius r around the earth. Time of revolution of satellite is

A satellite of mass 'm' is revolving in a circular orbit of radius 'r' around the earth of mass M. What is the total energy of the satellite?