91影视

The mass of each star of the binary-star system is$\text{M}=1.99脳{10}^{30}\text{鈥塳驳}$

The distance between two stars of the binary-star system is $\text{d}=\text{2r}=1.5脳{10}^{11}\text{鈥尘}$

Find the period by equating the gravitational force of attraction and centripetal force in the binary star system. Gravitational force is the force exerted by the Earth towards it.

Formulae are as follows:

The Centripetal force,$\mathrm{F}=\frac{{\mathrm{Mv}}^2}{\mathrm{r}}$.

The Gravitational force of attraction between two bodies of masses M and m separated by distance d is$\mathrm{F}=\frac{\mathrm{GMm}}{{\mathrm{r}}^2}$.

where F is the centripetal force, G is the gravitational constant, M, and m are masses, v is velocity and r is the radius.

Now,

The gravitational force between stars = centripetal force between two stars

$\mathrm{F}=\frac{{\mathrm{GM}}^2}{{\mathrm{d}}^2}=\frac{{\mathrm{Mv}}^2}{\mathrm{r}}$

$\begin{array}{c}\frac{{\mathrm{GM}}^2}{{\mathrm{d}}^2}=\frac{\mathrm{M}{\left(\frac{2\mathrm{蟺谤}}{\mathrm{T}}\right)}^2}{\mathrm{r}}\\ \frac{{\mathrm{GM}}^2}{4{\mathrm{r}}^2}=\frac{\mathrm{M}{\left(\frac{2\mathrm{蟺谤}}{\mathrm{T}}\right)}^2}{\mathrm{r}}\\ \frac{{\mathrm{GM}}^2}{4{\mathrm{r}}^2}=\frac{4{\mathrm{惭蟺}}^2{\mathrm{r}}^2}{{\mathrm{T}}^2\mathrm{r}}\\ {\mathrm{T}}^2=\frac{16{\mathrm{蟺}}^2{\mathrm{r}}^3}{\mathrm{GM}}\\ \mathrm{T}=\sqrt{\frac{16{\mathrm{蟺}}^2{\mathrm{r}}^3}{\mathrm{GM}}}\\ \mathrm{T}=\sqrt{\frac{16脳{\left(3.142\right)}^2{(0.75脳{10}^{11}\text{鈥�}\mathrm{m})}^3}{6.67脳{10}^{鈭�11}\text{鈥�}\mathrm{N}鈰�{\mathrm{m}}^2/{\mathrm{kg}}^2(1.99脳{10}^{30}\text{鈥�}\mathrm{kg})}}\\ \mathrm{T}=2.2脳{10}^7\text{鈥�}\mathrm{s}\end{array}$

But,

$1\text{鈥夆赌墆别补谤}=3.156脳{10}^7\text{s}$

So,

$\begin{array}{c}\mathrm{T}=\frac{2.241脳{10}^7\text{鈥�}\mathrm{s}}{3.156脳{10}^7\text{鈥�}\mathrm{s}}脳1\text{鈥�}\mathrm{year}\\ =0.71\text{鈥�}\mathrm{year}\end{array}$

Therefore,the period of revolution of the binary-star system$0.71\text{鈥�}\mathrm{year}$.

Therefore, using the gravitational force of attraction between two objects and the centripetal force, the period of revolution of a system can be found.