From a "Black Hole" looking OUT, not with our eyes obviously (but theoretically) What would we see? It wouldn't be black would it? because light is captured too. & what happens to photons?
2007-06-27 11:21:53 · 9 answers · asked by Anonymous in Science & Mathematics ➔ Physics
In 1975, Stephen Hawking argued that black holes, objects that formed through the collapse of massive stars, destroyed everything that fell through them. Not even light could escape their gravitational pull. Hence the name, "black holes."
His black hole theory became quite popular in scientific circles during the 1980s. When Hawking suggested that matter traveling through a black hole would disappear into a parallel universe, even sci-fi aficionados were hooked.
However, his theory couldn't explain a fundamental paradox. Matter entering a black hole could not just "disappear;" quantum physics laws state that matter can neither be created nor destroyed. The paradox inspired a 30-year debate among scientists that ended when Hawking recently came up with the answer.
Black holes, he now claims, disintegrate and die after immense periods of time. As they deteriorate, their transformed contents are spit back out into the universe they came from. "If you jump into a black hole, your mass energy will be returned to our universe, but in a mangled form, which contains information about what you were like, but in an unrecognizable state," he said
2007-06-27 17:10:58 · answer #1 · answered by Anonymous · 0⤊ 0⤋
If gravity is a few thing that attracts each and every thing down .So a black hollow pulls down any mass interior the place alongside with easy. besides the indisputable fact that it gravity isn't a pull ,then there could exist yet another situation that would clarify why a black hollow is extra and extra massive after which evaporates all its suggestions. If a Black hollow is a set of Neutrons struck at the same time ,then there is not any atomic shape interior the Black hollow. that's perplexing to conceive a based mass ,except its an exceedingly small particle, that would exist with out Atoms. The densest Mass shape beside a easy particle is an exceedingly small particle observed as Neutron. The question is how can a splash Neutron on the middle of a Black hollow have a lot gravity that it pull in each and all of the encircling hundreds. A Neutron has no magnetic field or electric powered field. yet a magnetic field is a lot more advantageous than a Gravity field. yet another situation, as in line with Dr. Abhas Mitra, is that Black Holes do no longer easily exist as defined by utilising status quo thought. for this reason how black Holes exist continues to be a questionable dilemma.
2016-10-03 06:02:07 · answer #2 · answered by Anonymous · 0⤊ 0⤋
not ever being there, i can only guess but here it goes: inside the black hole (called that because all things are subject to such intense internal pressure that anything going in can not escape - at least the same way it went in). kind of like a huge vacuum cleaner. but like a vacuum cleaner, the dirt & dust goes in but comes out in a contained area. what is believed is that light & other particles goes into this black hole and gets filtered out the other end, perhaps into another side of space or maybe into another dimension. on earth we have natural garbage cleaners so why not space. light getting trapped into this hole is bent, sucked up/swallowed down so quick & is pressed so tightly in that hole that it is just not/can't be seen after it is near/through/gone! can't see black , in the dark, now can you? that's why we carry lights in the dark. photons? same destiny.
2007-06-27 12:00:35 · answer #3 · answered by blackjack432001 6 · 0⤊ 0⤋
Light does not get inside a black hole, it is trapped in the curved space of the event horizon and will circle the black hole indefinitely.
2007-06-30 06:15:39 · answer #4 · answered by johnandeileen2000 7 · 0⤊ 0⤋
As a particle approaches the event horizon of a black hole time goes slower and slower, and the particle's progress gets slower and slower.
Time becomes so stretched out that the particle never quite reaches the event horizon.
The event horizon marks the limit of space-time.
So, you see, a black hole doesn't have an 'inside'.
2007-06-27 11:44:33 · answer #5 · answered by farwallronny 6 · 0⤊ 0⤋
If we were inside the event horizon of a black hole looking out, we would see the surrounding galaxy, stars and all, but the light would be heavily red-shifted. The closer we were to the singularity, the more red-shifted it would be. At the center, the red-shift would be infinite.
2007-06-27 11:32:39 · answer #6 · answered by lithiumdeuteride 7 · 1⤊ 0⤋
Inside a black hole, light gets bent so it circulates around .
It's like when you flush the toalette.
This is all I know. I haven't been in a black hole, so I don't know what would you see.
According to Einstein, you would fall into another universe.
hope this helps
2007-06-27 18:34:29 · answer #7 · answered by Anonymous · 1⤊ 0⤋
All paths within a black hole's event horizon point at the singularity. Light is trapped within.
2007-06-27 11:32:22 · answer #8 · answered by Uncle Al 5 · 0⤊ 0⤋
It would seem they would revert into rest mass.
2007-06-27 11:29:04 · answer #9 · answered by Anonymous · 0⤊ 1⤋