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Let me tell you a little bit:
Actually, a black hole, it's not a hole. It is a lost planet (or nebula), due to the intense planet**, the instantaneous extremely high energy causes the planet to expand and contract for a short time! (I don't know much about the process).
A huge planet shrinks to a very small size, with super density, super energy, and super mass. Due to its massive density and massive mass, it has a correspondingly large gravitational pull with any object! (You know the formula for gravitation, right?) )。
Because of its gravitational attraction to surrounding objects, matter is attracted to it, including the most difficult light! Therefore, the light that passes through its area of influence is attracted by this "huge ball of energy", and if it can't come out, we can't see it, so it's pitch black.
As for what exactly is in the scope of the black hole, and what happens when so much matter accumulates, it seems that it has not been studied.
Because it's pitch black and attracts everything into it, it's called a black hole.
Isn't that easy to understand?
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Black holes are actually still being explored, and no one can say exactly what is going on.
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What exactly is inside a black hole?
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A black hole, black, indicates that it does not emit or reflect any light electromagnetic waves to the outside world. The cave is anything that once it enters its borders, it will not want to slip out again.
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Black holes were first calculated by German mathematician Carl Schwarzschild, in the black hole around anything whether it is signal, light or matter can not escape, space-time here has become a bottomless pit, such a place that cannot be seen, touched or detected is called a black hole.
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There is a huge gravitational field hidden in a black hole, and this gravitational force is so great that anything, not even light, can escape the palm of the black hole. Black holes do not allow anything within their boundaries to be seen by the outside world, which is why such objects are called "black holes". We cannot observe it through the reflection of light, we can only know about the black hole indirectly through the surrounding objects affected by it.
It is speculated that black holes are remnants of dead stars or ** air masses, created when special massive supergiants collapse and contract.
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Matter that is compressed into pure energy, or energy that is compressed into pure matter? Take a look for yourself when you have time.
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A black hole is something with a certain mass, infinite density, and infinitely small volume, and there are no internal problems at all. I specialize in black holes.
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I don't know. I really haven't been in it before. Maybe it's like a teleportation array. Once inside, they were teleported somewhere else. Hey. Looking forward to 2012.
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Model of the internal structure of a black hole ** Solution:
The inner center of the black hole: the singularity-structural model ** solution:
The numbers in the figure represent the smallest unit of indivisible positive and negative chord information - string bits
Famous physicist John. John Wheeler famously said, "It from bit."
After the development of quantum information research, this concept was sublimated to the point that everything originates from qubits) Note: Bits are bits.
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Compared to other celestial bodies, black holes are very special. It cannot be directly observed, and scientists can only speculate about its internal structure. What makes black holes hide themselves is the curved space-time.
According to the general theory of relativity, space-time bends under the action of a gravitational field. At this point, the light is still traveling along the shortest path between any two points, but it is relatively bent. When passing through a dense celestial body, space-time will bend and light will deviate from its original direction.
A black hole is a celestial body with infinite density and infinitely small volume in the universe, and all physical theorems will fail when encountering a black hole; It is produced by the gravitational collapse of a massive enough star after it "dies" after the fuel for the nuclear fusion reaction runs out. When a black hole "hiccups", it means that a celestial body is "swallowed" by the black hole, and the black hole "grows" by swallowing the matter that falls into it; When a black hole "eats" a large amount of material, a jet of high-velocity plasma escapes from the edge of the black hole. Using theories of fluid dynamics and gravity and simulations with supercomputers, scientists have come to the conclusion that "feeding" a growing black hole will cause it to form a fractal surface.
Professor John Wheeler, the famous American physicist and the author of the term "black hole", once said: In the future, whoever is not familiar with fractal geometry cannot be called a scientific cultured person. Professor Zhou Haizhong, a famous Chinese scholar, once pointed out:
Fractal geometry not only demonstrates the beauty of mathematics, but also reveals the nature of the world, thus changing the way people understand the mysteries of nature; It can be said that fractal geometry is the geometry that truly describes nature, and the study of it has greatly expanded the scope of human cognition. It can be seen that fractal geometry has an extremely important scientific position.
Black holes are the most mysterious natural phenomenon in the universe. Why it has fractal geometry is still a mystery.
If the general theory of relativity is correct, the structure of a black hole can be described in terms of the Kerr-Newman gauge, which has several simplified versions, the most common being the Schwarzschild gauge, which describes a spherically symmetrical gravitational structure with no charge and no rotation. Objects that enter a black hole are torn apart by tidal forces and eventually inevitably fall to the central singularity, where space-time ends.
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Because of the huge mass and density, the inside of the black hole will distort space-time, and in this distorted state, a wormhole will be formed, which is a bridge connecting two spaces, and it does not take time to travel between wormholes, so time is static.
Model diagram of the internal structure of a black hole.
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The creation of black holes is similar to that of neutron stars; The core of the star shrinks rapidly under its own weight and becomes strong**. When all the matter in the core turns into neutrons, the contraction process immediately stops and is compressed into a dense planet. But in the case of black holes, because the mass of the star's core is so large that the contraction process goes on endlessly, the neutrons themselves are crushed into powder by the attraction of the squeezing gravity itself, leaving behind a matter of unimaginably high density. >>>More