the rotation curve for our galaxy shows stars beyond the sun moving slower than expected.
In the last 100,000 years, our galaxy underwent a significant change in stellar motion. This change is so dramatic that some scientists predict that our Milky Way galaxy will move off its galactic course in just a few million years, which is in stark contrast to the past 500 million years when our galaxy has been moving in the opposite direction.
That’s not all, though. The change in our galaxy’s motion could also be caused by the rotation of a black hole. The theory is that a black hole is a huge mass of gas and dust that is sucking up the material from the galaxy’s nucleus. Because the black hole is sucking material from the galaxy, it’s moving its angular momentum, which in turn is dragging the galaxy’s gravitational field. That is allowing material to flow back into the galaxy.
The theory is supported by a team of astronomers who’ve been studying the effects of black holes for decades now. These effects are measured by measuring a galaxy’s angular momentum. As a result, their calculations have shown that when a black hole is sucking up matter as fast as possible, its moving its angular momentum, which in turn is dragging the galaxy’s gravitational field, causing it to slowly drag material back into the galaxy.
It’s fascinating stuff. We can’t really imagine what a black hole at the center of the galaxy would be like. This may have a lot to do with the fact we don’t know how the galaxy is made up.
I am not sure what you are asking about, but I think that you are looking for a relationship between a black hole and a galaxy, which is what black holes are. They are not the central point of a galaxy. Black holes are the center of mass of a star or stellar system. They are the center of gravity and motion of a star or stellar system. A galaxy is not a black hole.
black holes are not central points of a galaxy. If you look at a galaxy and think that it is a black hole, then you are probably looking at a red dwarf. The galaxy is made up of millions of stars and billions of stars are made of black holes. Because there is no center, no central point, there is no central mass.
A black hole is a central mass that is so massive that gravity alone cannot hold it. A star is a star. It is a black hole that is a star. It is not a star with a central point. When a star spins, it has a central point, but the center of the star is not the center of the star. In a galaxy, there is no central mass because the galaxy is not a black hole.
The best way to keep track of all the galaxies in our galaxy is to draw a map on a computer screen. A galaxy is a collection of stars (with their own stars) and a central black hole.
It’s also not a black hole, which is why the galaxy actually moves slower than expected. Because it is not a black hole, it must have a central mass. The reason why the central mass is not a black hole is because there is more gravity than gravity could hold.