The small dense stars rotate about their...

The small dense stars rotate about their common centre of mass as a binary system, each with a period of `1` year. One star has mass double than that of the other, while mass of the lighter star is one-third the mass of the Sun. The distance between the two stars is `r` and the distance of the earth from the Sun is `R`, find the relation between `r` and `R`.

Similar Questions

Explore conceptually related problems

Two stars of masses m and 2m at a distance d rotate about their common centre of mass in free space. The period of revolution is :

In a certain binary star system, each star has the same mass as our sun. They revolve about their centre of mass. The distance between them is the same as the distance between earth and the sun. What is their period of revolution in years ?

In a binary star system one star has thrice the mass of other. The stars rotate about their common centre of mass then :

In a certain binary-star system, each star has the same mass as our Sun, and they revolve about their center of mass. The distance between them is the same as the distance between Earth and the Sun. What is their period of revolution in years ?

Two stars of a binary system are separated by a distance of 20 AU with a period of revolution of 20 years. One of the two stars is 4 times farthest from the centre of mass of the other. Find masses of each star.

A pair of stars rotates about their centre of mass One of the stars has a mass M and the other has mass m such that M =2m The distance between the centres of the stars is d (d being large compared to the size of either star) . The ratio of kinetic energies of the two stars (K_(m) //K_(M)) is .

Similar Questions

Recommended Questions