Would photon travel slower if it would send away from the black hole near the event horizon?
1) The reason, why black holes are called "black" is that getting information from the black hole is impossible because the escaping velocity in that particle is bigger than the speed of the light. And because the black hole would not send any information away from it, we might call this thing as a black hole.
The form of the black hole is so different than other particles in the universe, is that when we are looking at this strange thing we are forgetting the accuracy when we are thinking about things like singularity and event horizon. The event horizon is precisely the point, where the escaping velocity reaches the speed of light, and that means that if we would send photon away from the millimeter away from the event horizon that photon would fly away. The point where light would drop in the black hole is precisely the event horizon.
The event horizon is not the physical layer. It's rather saying the point, where the escaping velocity will reach the speed of light, and nothing can escape inside it. But if we would send photon to space millimeter above or away from the event horizon that thing would not drop in the black hole.
In that kind of work, the most important thing is the accuracy and here I must say that we still have not a single observation about black holes themselves. We are seeing things, what is happening near the event horizon, but we cannot see the things, what is happening in the event horizon and at the point of the event horizon. But we can see things, what is happening millimeter away from the event horizon.
2) Will the photons slow, if they are leaving near the event horizon?
And that thing has caused one very interesting question, what is does the photon slow when it would come from the extremely close range, but outside the area of the singularity. This kind of question is causing the need to create MOND (Modified Newtonian Dynamics)(1). The Einsteins Theory of Common Relativity says that there is nothing, that cannot cross the speed of light, but when the particle crosses the event horizon, that would cause that the speed of the particle would cross the speed of the light in straight space.
But inside the singularity, the particle that is dropped in the black hole in the same line with photon would reach the nucleus of the black hole at the same moment with the photon, which is traveling in the singularity. This is what we are calling relativity. In that area, where the escaping velocity is stronger than the speed of the light the speed of a photon is higher than the speed of photon what is outside that area. So the speed of light is higher in the black hole than outside it.
3) If the hypothetical wormhole (2) is too tight, that thing can turn the entire particle to the antimatter.
So, in this case, the black hole would not break the laws of physics, and nothing cannot cross the speed of photons even in that area. So when we are thinking of a realistic version of the wormhole, there is one thing that we always forget. There is a couple of possibilities of the wormhole and one thing is forgotten. The material would be pulled in the wormhole or the electromagnetic bridge between black holes from both sides, and that means that the material would travel to both directions.
The idea of the wormhole is forming because the black holes seem not to grow. And if the black hole is not growing the material would go somewhere away from that place. So there are two versions of that thing, what we can call "the mystery, why black holes are not growing". Because the mass of the black hole is growing the diameter of the event horizon would also grow.
A) Black holes are growing but we cannot notice that thing. That means that the mass of the black holes is so huge, that we cannot recognize that growing.
The idea is that only the small part of the material that would orbit the black hole in the transitional disk would fly away because most of the material would turn to X- or gamma-rays in the extremely nuclear reactions, what happens in the transitional disk. And the jets that are leaving from the galaxy are supporting this theory. So that means that the material must touch the event horizon if it would pull in the black hole.
B) The material would travel away from the black hole by the electromagnetic bridge or lightning, which is called as Einstein-Rose Bridge or wormhole. That thing would be like the hole in the universe. The black hole allows the time to travel even without wormholes. The hypothetical spacecraft would just orbit the black hole with the speed that is near the speed of light. And that thing allows that the time will dilate in that craft.
When the material impacts the wormhole that causes huge detonation. Another risk in the hypothetical travel in the wormhole there is a possibility that this thing is too tight, and that thing could cause the spin of the electrons in the outer layer of the spacecraft will be turned. This thing would turn that thing to the antimatter.
Comments
Post a Comment