No. A black hole is faster than the speed of light. Not only that, but it's infinite.
It's a hole. Not a tunnel.
Great answer based on one(1)theory...next time add "maybe" before "it's infinite" and, yes you may have a hole in your head but it hits grey matter at some point.
never trust your life to a theory, and that is a fact. Only when one knows for sure can one speak with such confidence...anyway, its more a bucket than a hole
It should be called "A black bucket"
a black hole is not actually a hole...it is a super dence point whose gravity is so powerful it pulls everything into it
If you mean the 'other side' of a black hole, we don't really know. The other end of a black hole could be a rabbit hole, spitting matter into a parallel universe. Or perhaps there is no other side and matter is simply gone. Many believe it is possible that black holes could be gates into other universes or parallel worlds. However, since we haven't thrown anyone into black holes, we don't know what lies on the other side.
the fourth dimension
i think that light does have mass because it gets sucked into a black hole although a scientist did prove that somehow it doesn't have mass but my dad told me that there was an other test, under ground so there was no light, where they put a thick metal plate, painted one side black and one side white and the opposite on the other side, on the top of a sharp cone with a cone on top of is so it could balance. then the scientist got a very bright light and shone it at the white side and amazingly the metal plate started to move in the direction the light was shone at
it is either nothing but death or another dimension.
A black hole is an area in space-time, caused by the collapse of a massive star, where the gravity is so high that anything past a certain point -the event horizon- will never escape. Nothing, not even light. However, the energy and matter outside or near the event horizon of the black hole can get excited, or heated up, and released as beams of gamma rays and other radiation detectable from Earth. That's why we can determine that the singularity which is a black hole is "there", even though we can't see it (it's a black hole).
They don't. No white hole has been found, it's a theoretical construct - it answers the question: 'what would happen if a black hole went back in time?' It has been theorized that they COULD be the other side of a black hole (if there is one.) White holes are like tachyons: tachyons are particles that go faster than the speed of light and can never slow down to the speed of light.
not really, time is slowed in higher regions of gravity but it dosent stop it, and any opaque object will stop light it's just that it gives of no light, nobody knows what it does to space or how it works
no. white holes are actually an object predicted by scientists to exist on the other side of a black hole. it is predicted to spit out objects that entered a black hole.
try having one person light a small firecracker at one end of the hole and another with a baseball bat or a cage on the other side of it
Consider the case of a family of planets in orbit around a star. The orbital speed of each planet depends on the mass of the star and the distance of the planet from the star (presuming that the mass of the planet is negligible in comparison to that of the star). This means that if you know the speed of a planet in orbit, and you know its distance from the star, you can compute the mass of the star. Now consider an active supermassive black hole at the center of a distant galaxy. The black hole is "active" because there is matter swirling around it, being heated as it is compressed, and thus radiating light (much of it as x-rays). We can measure the speed of the material orbiting the black hole by measuring differences in the frequency of the light as the material orbits away from us on one side of the black hole and toward us on the other side. If we have a good idea of the distance to the black hole from Earth, we can calculate the distance of the material from the black hole. So we know the orbital speed of the material and we know its distance from the black hole. It is then easy to calculate how massive the black hole must be.
Short Answer: Though a black hole does not emit light, it does distort light that passes nearby and as a result, if we ever got a clear look at a black hole, we would see not the blackness but the odd distortion it caused to the appearance of objects behind it. We do not, however, get a chance to see black holes clearly because they always seem to be in the process of devouring thousands of stars at the center of their galaxies. We do see that clearly because, as a black hole devours matter, it causes tremendous radiation from the matter as it is accelerated into the black hole. Better Answer: One can not see a black hole. No light ever exits a black hole. There is an "edge" of space around a black hole called the event horizon and nothing ever gets out once it passes that point, so there is no reflection from a black hole. That said, there is a simple phenomenon that is basically like a shadow that allows one to "see" a black hole. If an observer is on the opposite side of a black hole from a distant set of stars, the star field will look like it has a distortion. It is not exactly like holding up a black ball in front of a bunch of stars because the black hole distorts light that passes near it. The gravity of the back hole causes a beam of light to bend towards it if it gets close, so light from the star field behind a black hole will appear distorted. Knowing this, a person could work backwards and figure out the cause of the distortion was a black hole and even tell something about the size and other properties of a black hole from the distortion. That said, such a thing is never observed. In reality, black holes that we know about all have a million or billion stars around them all hugely disrupted and blazing so one can't actually see what it is they are surrounding. So, the fact that there are these examples of highly distorted stars emitting horrendous amounts of radiation at the center of many galaxies tells us there is a black hole causing the havoc. The extraordinary nature of radiation coming from stars at the center of our own galaxy, the Milky Way, tells us that we have our own black hole.