Difference between revisions of "Chapter 6 Problem 60"

Problem

The Sun rotates about the center of the Milky Way Galaxy at a distance of about 30,000 light-years from the center (1 ly = ${\displaystyle 9.5\times 10^{35}}$ m). If it takes about 200 million years to make one rotation, estimate the mass of our Galaxy. Assume that the mass distribution of our Galaxy is concentrated mostly in a central uniform sphere. If all the stars had about the mass of our Sun (${\displaystyle 2\times 10^{30}}$ kg), how many stars would there be in our Galaxy?

Solution

Like the previous question

${\displaystyle G{\frac {m_{\text{Sun}}M_{\text{galaxy}}}{R^{2}}}=m_{\text{Sun}}{\frac {v^{2}}{R}}}$ ${\displaystyle \rightarrow v={\sqrt {G{\frac {M_{\text{galaxy}}}{R}}}}}$

${\displaystyle M_{\text{galaxy}}={\frac {Rv^{2}}{G}}}$

also

${\displaystyle v={\frac {2\pi R}{T}}}$

thus

${\displaystyle M_{\text{galaxy}}={\frac {4\pi ^{2}R^{3}}{GT^{2}}}={\frac {4\pi ^{2}\left(30000\times 9.5\times 10^{35}\right)^{3}{\text{m}}^{3}}{\left(6.67\times 10^{-11}{\text{Nm}}^{2}/{\text{kg}}^{2}\right)\left[\left(200\times 10^{6}{\text{y}}\right)\left(3.14\times 10^{7}{\text{s/y}}\right)\right]^{2}}}}$ ${\displaystyle =3.452\times 10^{41}{\text{kg}}\approx 3\times 10^{41}{\text{kg}}}$

Number of stars ${\displaystyle ={\frac {M_{\text{galaxy}}}{M_{\text{sun}}}}={\frac {3.452\times 10^{41}{\text{kg}}}{2\times 10^{30}{\text{kg}}}}}$ ${\displaystyle =1.726\times 10^{11}\approx 2\times 10^{11}}$

see Fermi Paradox