More Evidence On A Milky-Way Black Hole 14
admiral2001 writes: "On FoxNews here is an article describing the most decisive evidence to date of the existence of a black hole at the center of the Milky Way. They witnessed and measured a flare of x-ray activity that allowed them to determine the size of the object. Given the mass, the only explanation is a black hole."
Black holes are cool (Score:1)
I'm of course not saying that finding external evidence like this isn't cool. Am I completely off in my statement above?
Dancin Santa
Re:Black holes are cool (Score:3, Insightful)
Even if we couldn't observe the emitted X-rays, wouldn't the observation that the galaxy isn't flying apart from the centrifugal force caused by its apparent rotation show that we are indeed held in place by a large gravitational force?
The fact that the galaxy is not flying apart is proof that there is a large gravitational force holding it together, but it is NOT proof that there is a large, massive object at the center holding it together. In fact, by the study of galactic rotation curves (plots of the velocity of the luminous objects in the galaxy against their distance from the center of the galaxy) we know that the majority of the stuff holding galaxies together is NOT clustered at the center; it is more diffuse and spread across the entire galactic sphere. (This is the so called "dark matter" because it doesn't interact with light.) The existence of a large black hole at the center of the galaxy is not, therefore, a foregone conclusion. Strong evidence in favor of such a black hole is very interesting, if not entirely unexpected.
Re:Black holes are cool (Score:1, Insightful)
Re:Black holes are cool (Score:1)
Re:Black holes are cool (Score:2)
The reason for the beformentioned effect is that if a massive object at the center of the galaxy was responsible for the gravitational pull in the stars orbiting it (e.g. the rest of the galaxy) then the stars orbiting close to the center would have to have a orbital path-speed much higher than the stars further out. This combined with the much shorter orbit would result in the inner stars 'overtaking' the outer ones, thus destroying any radial structure in the galaxy. We know such exsist (e.g. the spiral arms) and thus no single big object can account for the gravitational pull.
If you look at the formulas for celestrial motion (Keplers laws) then this would become obvious. They can be derived from the general gravitational formula: F = G * m1 * m2 / r^2. Where G is the gravitational constant F is the force between the objects (with mass m1 and m2) and r is the distance between them.
Yours Yazeran
Plan: to go to Mars one day with a hammer.
Growth Rate (Score:2, Interesting)
Re:Growth Rate (Score:3, Insightful)
Isn't it a fact that black holes grow at a steady rate?
No, it isn't. Outside of a black hole, it looks gravitationally just like a star. And just like stars do not grow at a steady rate, black holes need not grow at a steady rate. In both cases, rates of growth depend on the local environment surrounding the object; once they have "eaten" everything in their neighborhood, they will not grow anymore.
Re:Growth Rate (Score:2, Interesting)
I need to go fish out my physics book...
Re:Growth Rate (Score:3, Insightful)
Black holes do not grow if left to themselves; in fact, they shrink (at least according to Mr. Hawking) -- the smaller they are, the faster they shrink. Of course, most observable black holes would radiate less energy than the cosmic background radiation, so this is all rather academic, but the point remains the same: if black holes aren't absorbing energy, they're losing it.
(yes, I know I said black holes aren't black; this is precisely Mr. Hawking's point).
Re:Growth Rate (Score:1)