# Opposite Constellation of Sagittarius A*

Suppose an alien race fired a laser beam from the centre of the Milky Way, it went through the Sun and then off further out of the galaxy. What Constellation would the light beam head towards, closest star also if possible? Am not interested about how much devastation the light beam may or may not cause, just the journey and destination.

Would that direction be the quickest/shortest way out of the galaxy if we had a spaceship that could travel that fast?

• Opposite constellation is Gemini, so it would roughly move towards Castor/Pollux. – Adwaenyth Jan 13 '17 at 13:37
• Depending on what you mean by "out of the galaxy" the quickest way would just be to go "up" or "down" out of the plane of the galaxy rather than traveling the full length of the disk. – zephyr Jan 13 '17 at 14:13
• @zephyr Except that it has to start at the center of the galaxy AND go through the Sun, and two points determine a line. – user21 Jan 13 '17 at 15:28
• @zephyr Ack, I thought I'd "deleted" that comment after realizing you were answering a different part of the question. Please ignore my comment: I never meant to actually post it. – user21 Jan 13 '17 at 15:45
• When i originally asked the question, I thought both questions would be the same answer. The second question didn't actually have to go through the Sun, just the quickest way out. So straight up to Polaris it is then. – MiscellaneousUser Jan 14 '17 at 22:47

Per https://en.wikipedia.org/wiki/Galactic_Center, the galactic center is at RA 17h 45m 40.04s, Dec -29° 00' 28.1" in the J2000 epoch.

The point opposite this would be RA 5h 45m 40.04s, Dec +29° 00' 28.1" (J2000).

The nearest star I could find to this position is a relatively uninteresting 16th magnitude star:

The nearest "interesting" star is HIP 27088, which is an 8th magnitude double star:

My calculations show this point is in Auriga, not Gemini, albeit just barely:

A slightly more zoomed out view:

As @zephyr notes, the fastest way out of our galaxy would be "straight up" (perpendicular to the plane of the galaxy), not away from the center, since the Milky Way's "height" is much smaller than its length/width.

If someone wants to replicate what I did on Stellarium and use RA/DEC grids, be sure to set the date to 1999 Dec 31 at noon GMT: the grids Stellarium displays are based on the current date, not J2000.

NOTE: http://www.usno.navy.mil/USNO/astrometry/optical-IR-prod/nomad lists even more stars than Stellarium (Stellarium uses only part of this catalog), so you might be able to find an even closer star to this point, but I was too lazy to do so.

EDIT: Newer versions of Stellarium let you overlay galactic coordinates. I'm too lazy to do this myself, but if someone else wants to, it would be a better answer.

• Thanks for spending the time and effort of all those maps, much appreciated. As mentioned above, they were two questions which I assumed had the same answer. – MiscellaneousUser Jan 14 '17 at 22:55