A planet is revolving around the sun in a circular orbit with a radius r. The time period is T .If the force between the planet and star is proportional to `r^(-3//2)` then the quare of time period is proportional to

A planet is revolving around a star in a circular orbit of radius R with a period T. If the gravitational force between the planet and the star is proportional to R^(-3//2) , then

If a planet of mass .m. is revolving around the sun in a circular orbit of radius .r. with time period T, then the mass of the sun is

If a planet of mass m is revolving around the sun in a circular orbit of radius r with time period, T then mass of the sun is

Imagine a light planet revolving around a very massive star in a circular orbit of radius r with a period of revolution T.If the gravitational force of attraction between the planet and the star is proportional to r^(-3) ,then the square of the time period will be proportional to

A small planet is revolving around a massive star in a circular orbit of radius R with a period of revolution T. If the gravitational force between the planet and the star were proportional to R^(-5//2) , then T would be proportional to

A small planet is is revolving around a very massive star in a circular orbit of radius r with a period of revolution. T is the gravitational force between the planet and the star is proportional to r ^(-5//2) ,then T will be proportional to