Einstein says that accelerating an object will increase it mass expotentially.What happens if you accelerate a singularity?
2007-10-23 19:32:13 · 4 answers · asked by Anonymous in Science & Mathematics ➔ Physics
Let's be careful here. Relativity says that the mass of an object RELATIVE TO AN OBSERVER is higher if the observer is moving relative to the object.
Many physicists choose not to even consider this a true increase in mass, instead they introduce a "gamma" factor to make up for this.
So, it is not the acceleration per se, but the fact that you are an observer moving relative to the black hole.
So, the mass of a black hole will appear greater if you happen to be moving relative to it, but there is nothing special going on here. If you were another observer [in another place], moving in sync with the black hole, you would not measure any change in mass.
2007-10-23 20:11:30 · answer #1 · answered by David Zukertort Rudel 3 · 1⤊ 0⤋
The singularity IS acceleration. Study relativity (in terms of math) and you will see this. Relativity derives from the observation that gravity behaves exactly like acceleration.
In other words, the entire universe, and every object in it, is expanding towards the nearest objects at the rate of gravity. Mathematically speaking, of course.
Of course, IF you accelerated the mass, according to the math, the mass would increase, which would increase the acceleration [of gravity], just like any other mass. The gravity and the increase in density would resist further acceleration. The result would be a decrease in acceleration.
UNLESS, the acceleration were the result of GRAVITY.
if two singularities met? Would their accelerations and gravities exceed mathematical limits? OH NO! The universe would EXPLODE!
Uh, no. Remember, acceleration and gravity are the same. The greater the mass, the more it would resist acceleration, while the greater the mass, the greater the gravity. The increases of both would equal. The net acceleration would, at some point, become zero. According to Einstein.
Increased velocity=increased mass. Increased mass=increased inertia. Increased inertia=decreased acceleration=increased deceleration [resistance to acceleration]
The increases and decreases cancel out at the event horizon. Contrary to the simple common sense of Newton, the event horizon is where acceleration and time meet in a struggle of infinite proportions. The struggle ends at the even horizon as the math goes off the charts and exceeds infinity.
Of course, you must accept infinity as real to accept this explanation. If you do not, then you must question the validity of Einstein’s “comprehensible” cosmos.
Einstein got closer than Newton. But, he still missed.
If you are a student, please read this again. In this post is the key to the GUT. It is subtle. But, it is here.
2007-10-23 20:10:27 · answer #2 · answered by zealot144 5 · 0⤊ 1⤋
The mass of any object moving relative to you is:
M = Mo / [1- (v^2/c^2)]^.5
The mass of a moving black hole would be greater than its original rest mass by the above factor. The closer V is to C, the greater the mass becomes.
The black hole itself would not notice any mass increase; mass only increases relative to an observer in a different reference frame.
2007-10-23 20:45:04 · answer #3 · answered by jeffdanielk 4 · 1⤊ 0⤋
singularity is the most accelerated thing , you can not increase it's speed, cause even the most quick thing-the light(300.000km/s)can't escape it
2007-10-23 19:38:35 · answer #4 · answered by Anonymous · 0⤊ 1⤋