Gravity. This a known and to some extent an arguably proven fact. But there are also theories that Black holes contain Anti-matter, an entity in inverse existence to "matter".
Black holes have huge density and therefore have extremely strong gravity.
A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.A Schwarzschild black hole is a non-rotating black hole. The Kerr black hole is a rotating black hole. Since the latter is more complicated to describe, it was developed much later.
If you jumped into an "ordinary" Schwarzschild black hole, you would be crushed into a long line of particles, which means death by a black hole. If you jumped into a Kerr black hole, the same process may occur, but the only thing different is that a Kerr black hole spins, and a Schwarzschild black hole does not. That answer needs a bit more detail. Please use the "related link" below.
A black hole
The strength of a black hole's gravity depends on the black hole's mass and how far your reference point is from the center of mass.
The song played in the baseball scene in twilight is called Supermassive black hole by Muse. Try these: http://www.youtube.com/watch?v=Xsp3_a-http://www.youtube.com/watch?v=Xsp3_a-PMTw and if they dont work you can listen to it on utube just type in supermassive black hole by muse . TAAADDDAAAAA!
their black and they have tremendous gravity, due to them being a collapsed star that have imploded onto itself.
The black hole's mass would increase by an insignificant amount.
A black hole contains a large amount of matter, compressed in an incredibly small space.
Particles falling into a black hole release a large amount of x-rays as they do so. This is not energy from the black hole itself, but energy release that is a sign of a black hole.
My teacher gave me a tremendous amount of homework.It took me a tremendous amount of time to finish my homework.Hope you enjoy! ;)
A quasar is a galaxy that is radiating massive amount of radioactive energy. A quasar MAY have a black hole at it's center. A black hole is just dead star that collapsed in on itself.
a. a tremendous amount of color b. a tremendous amount of energy c. a tremendous amount of movement d. a tremendous amount of passion Please select the best answer from the choices provided A B C D
THE ANSWER IS:BLACK HOLES LEAK HAWKING RADIATIONEXTRA:IN MY HYPOTHESIS,a black hole can convert matter into energy. Einstein found out that time and space interlink in spacetime,and that this has to do with an object's mass and energy.With this,he made his special theory of realitivity:E=MC/\2.(This is the simplified version)This states that an object's energy=its mass times the speed of light squared(the speed of light times the speed of light)(e=m x (c/\2))NOW BACK TO BLACK HOLES:Black holes are probably formed when 2 stars pull each other together and form a bigger star with a bigger mass and therefore bigger gravity and then another star comes...etc...etc... supermassive black hole with tremendous gravity.''They''say a black hole has mass but no volume.I think a black hole has no volume.I think it is just a HUGE ball of energy with a TREMENDOUS gravity.WHY I THINK A BLACK HOLE IS ENERGY:I think a black hole is energy because:matter + tremendous heat and pressure=energy.and because light can not escape it.Maybe a black hole has more energy than it should.
The center of a black hole is called a singularity, where a huge amount of matter is crushed into a single point. That's scary, isn't it?
It is not yet known for sure how a supermassive black hole acquires the enormous mass it has. It is possible that it starts as a normal black hole, and then gets more mass. It is also possible that from the start, a much larger amount of mass than in a normal black hole collapses.
we can notice by the effect it causes on the nearby stars. A star which is near a black hole revolves around it and when it is closer to a black hole ,it revolvles faster and it revolves slower when it is farther away from a black hole.Secondly, we can notice a black hole by the space distortion it creates. Thirdly, we can notice it by finding the amount of gas of nearby stars falling into the black hole
Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.Because of their previous history. The star that converted to a black hole may have had more or less mass for a start. Also, a black hole can increase in mass when matter falls into it, so depending on the amount of matter available for the black hole, the results may vary.However, it is not yet known how the galactic black holes achieved the enormous mass they have.