memmd wrote:When two galaxies collide, as with today's NGC 4013 and the Tidal Stream, do the component stars ever crash together, and if so, what is the result? Obviously the stars are far apart even in dense galaxies, but star-star collisions must occur just statistically.
With the width of stars at light minutes and the separation at light years there is a disconnect of the order of a million!
In terms of a collisional cross section area that disconnect is of the order of a million squared!!
Since a galaxy is tens of thousands of light years across each star has about ten thousand separate chances of hitting this small relative cross section (of one over a million squared) or ten chances in a billion.
If you took off on the Starship Enterprise at warp speed through the center of the galaxy your chances of hitting a star are about the same as the chances of you eye seeing the surface of a star ... or in other words it is the ratio of the brightness of the Milky Way to the brightness of the surface of the sun. (Olber's paradox)
Thus out of a galaxy of a 100 billion stars only about a thousand will engage a direct collision and unless one of those thousand stars is your sun this will be important only in terms of the gravitational radiation generated by the galactic collision.
[quote="memmd"]When two galaxies collide, as with today's NGC 4013 and the Tidal Stream, do the component stars ever crash together, and if so, what is the result? Obviously the stars are far apart even in dense galaxies, but star-star collisions must occur just statistically.[/quote]
With the width of stars at light minutes and the separation at light years there is a disconnect of the order of a million!
In terms of a collisional cross section area that disconnect is of the order of a million squared!!
Since a galaxy is tens of thousands of light years across each star has about ten thousand separate chances of hitting this small relative cross section (of one over a million squared) or ten chances in a billion.
If you took off on the Starship Enterprise at warp speed through the center of the galaxy your chances of hitting a star are about the same as the chances of you eye seeing the surface of a star ... or in other words it is the ratio of the brightness of the Milky Way to the brightness of the surface of the sun. (Olber's paradox)
Thus out of a galaxy of a 100 billion stars only about a thousand will engage a direct collision and unless one of those thousand stars is your sun this will be important only in terms of the gravitational radiation generated by the galactic collision.