Two satellite of mass `m` and `9 m` are orbiting a planet in orbits of radius `R`. Their periods of revolution will be in the ratio of

Two satellites of masses M and 16 M are orbiting a planet in a circular orbitl of radius R. Their time periods of revolution will be in the ratio of

Two satellites of masses M and 4M are orbiting the earth in a circular orbit of radius r. Their frequencies of revolution are in the ratio of

Two satellite of mass m and 2 m are revolving in two circular orbits of radius r and 2r around an imaginary planet , on the surface of with gravitational force is inversely proportional to distance from its centre . The ratio of orbital speed of satellite is .

A satellite is orbiting the earth in a circular orbit of radius r. Its period of revolution varies as

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

If a time period of revolution of a satellite around a planet in a circular orbit of radius r is T,then the period of revolution around planet in a circular orbit of radius 3r will be

Two satellites having their masses in the ratio of 4:9 are revolving in orbits of radius R. The ratio of their time periods will be

Two satellites are orbiting around the Earth in circular orbits of the same radius. The mass of satellite A is five times greater than the mass of satellite B. Their periods of revolution are in the ratio

Two satellites A and B are orbiting around the earth in ciruclar orbits of the same radius. The mass of A is 16 times that of B. Then the raito of the period of revolution of B to that of A is

The binding of a satellite of mass m in a orbit of radius r is