-
Yes, it has been discussed in many scientific journals. However, black holes are not that no matter can break out of his constraints, Einstein once made such an assumption: if the neutrino on the surface of the black hole does not move, the instantaneous speed is likely to break through the control of the black hole, but this statement has not been scientifically confirmed, because according to the current level of human science can not do such scientific experiments, and neutrinos are very short ...... life
In addition, remind the friends upstairs: the initial state of the black hole is not necessarily a huge celestial body, and it may even be a small atom, once there was an article in a natural science journal about the possibility of human beings creating a black hole disaster, saying: Some human laboratories are very likely to create super-large atoms and engulf the earth and the entire solar system......
-
You don't understand this, why is a black hole called a black hole, as the name suggests, it is a black hole, all matter will be sucked in, and inside is actually a world, there is a castle in it, called the Beauty Castle, there is a beauty production machine in the center of the castle, all the substances that are sucked into it will go to the production machine, produce beautiful women, there are no men in it, and all the beauties have not seen men, so they can't get married and have children, they are all self-defense, same-sex practice, I was idle last time and had nothing to do, and I used a speed that exceeded the speed of light,Entering the black hole,The people in the black hole welcome me very much,I became the object of everyone's pursuit,Even the queen is very fanatical about me.,It's been cool in the black hole for half a year.,I came out.,Just come out and see this problem.,First know what's in the black hole! Don't envy me, you can't get in, haha, they're all mine!! Hahahahaha!!
-
Singularity, due to gravity, when the mass of the star reaches more than three times that of the Sun, will continue to collapse and contract. The result is a celestial body that cannot escape even light, and a theoretically perfect spherical shape. It is currently known to have the Cygnus x companion magnitude.
-
Black Holes and the Earth].
A black hole has no specific shape, and you can't see it, only judging its presence based on the direction of the planets around it. You may scream at its mystery, but it has a strong gravitational pull but at the same time it is an important piece of evidence to determine its location, and even if its "official boundary" is far away from us, there is no way we can save it (unless we can abandon the Earth before its gravitational pull is applied, but science is not science fiction**, and the possibility of abandoning the Earth is still very slim for a long time to come). This is also one of the reasons why humans study it.
Stars, white dwarfs, neutron stars, quark stars, and black holes are five density equivalent stars in turn, and the smallest density is of course stars, black holes are the ultimate form of matter.
-
A black hole is a celestial body! And it is originally a large (massive) celestial body. After absorbing a large amount of matter, it is still a black hole, and it will not change otherwise.
-
Figuratively speaking, a black hole is a bottomless pit, no matter how you feed it, you can't feed it, and the more you eat, the more you want to eat, even if you stuff the whole universe into it, it can eat it, and it keeps getting bigger.
-
Black holes are celestial bodies in their own right, black holes are not bare singularities, and black holes can evaporate.
-
At the moment it is still only conjecture, and there is enough evidence to prove it, just conjecture.
-
1. The reason for the formation is that the massive celestial body is compressed into matter that is very small and forms a black hole.
The exact process and principle are not yet clear.
2. Black holes can absorb light.
So it can't be seen.
Don't say ** anymore.
3. It's time to convert to quality.
4 can devour everything.
At present, the theory of black holes is just beginning.
It can only be theoretically proven that black holes exist.
There is no concrete direct evidence.
So the current question about all black holes is just inference.
Believe it or not.
The existence of black holes is suspected.
Because the existence of black holes is only theoretically inferred.
What is Theoretical Inference? Imagine that.
Albert Einstein spent all day in his room doing mathematical and physical calculations and researching the theory of relativity, although at the time it was considered a fantasy.
Who believes that an object moves backwards in time faster than the speed of light? Right.
Herein lies the problem.
He is currently recognized by most scientists.
Then it shows that the theory of relativity has a correct theoretical basis.
It is likely to be true.
Well, at the moment there is no technology that can reach a speed of faster than light.
Only close to the speed of light.
However, it has been proven that there is a relationship between speed and time.
Therefore, the theory of relativity can be said to be mostly accepted.
That's it.
Black holes are currently only theoretical.
It is only a matter of time before it can be proven correct.
It doesn't matter if you believe it or not.
But it's one thing to believe that black holes don't exist.
It's another thing not to believe in the black hole theory.
Theory is just an equation.
Then the conclusion drawn from the correct mathematical physical equation.
No big surprises is absolutely true.
That's the rigor of science.
Mathematical or physical formulas that are impossible to arrive at are meaningless.
One of the most important aspects of the black hole theory is that.
Relationship between gravitational force and velocity.
It is impossible to go farther), then that is, light cannot pass through the black hole, which is the answer.
If a black hole exists.
Light can't pass through it.
Then even if it is hot-eyed, I don't think I can see it.
What was on TV was an imaginary picture.
It's computer-drawn.
Make it easier to understand.
Black holes are doing space travel.
But it is estimated to move very slowly.
And black holes are not holes.
It is a substance with shape and mass.
It is to shrink the weight of the earth to a grain of rice.
It's quite similar to a black hole.
-
Scientists believe that a black hole with a mass equivalent to the sun is the result of a supernova explosion, but for giant black.
The origin of the cave is still inconclusive. Huge black holes cannot be formed by the aggregation of small black holes, so they do not form suddenly.
What is the path of an intermediate mass black hole? The key to the existence of this possibility is whether it can be put with solar mass.
A million times the celestial body condensed into space below light-years. As a possibility, Harvard University in the United States.
Scientists have come up with a new hypothesis: at the beginning of the universe, massive celestial bodies produced intermediate masses.
Black hole. Scientists simulated this process on a computer, and the results showed that 300,000 years after the birth of the universe.
, ionization occurs in the massive object, and the size condenses to less than light years. At this time, there is nothing clear in the universe.
than, the light is able to pass unimpeded. The resulting black hole is about 100,000 to 100 times the mass of the Sun
10,000 times, basic.
is formed in space that has nothing to do with galaxies.
When a black hole encounters a galaxy, the black hole falls into the center of the galaxy due to the frictional effect of mechanics. If.
A black hole that falls into the center of a galaxy will attach a solar mass of matter within a year,1
It will be owned in 100 million years.
100 million times more mass of the sun, thus becoming a giant black hole. In terms of quasar energy, a mass of this magnitude.
The amount of adhesion is essential. But this model is not entirely self-justifying. Taking into account the general cosmic model.
The number of black holes formed by this mechanism is much smaller than the number of galaxies. So, in theory, the shape.
The exact process of forming a giant black hole is still unknown, so it has an intermediate mass and revolves around the center of the galaxy.
The black hole of the M82 galaxy is very intriguing. The key problem is finding m82
The exact quality of a galaxy's black hole.
amount, and figure out the process of its formation. The solution of these problems is decisive for unraveling the mystery of the giant black hole.
meaning.
-
1 A black hole is actually a high-density and high-quality star, because the gravitational attraction is too large due to excessive mass, so even the light emitted by itself cannot escape the constraints of gravity, so it is pitch black from the outside world. That's why it's called a black hole.
2 A black hole can't get in, just like it can't get into the sun, it's just a star. But if you get close to a black hole, say a person, it will be pulled into a noodle by a strong gravitational pull, and then it will be slapped on it and baked into a dough.
3 The Milky Way exists, and it can be deduced through astrophysics.
4 This question is difficult to say, as long as a star is dense enough, a black hole can be formed.
-
Massive stars collapse at the end of their evolution, forming ultra-dense objects called black holes.
The mass of a black hole is very large, and the gravitational pull is of course the same, and if we enter a black hole, we will be crushed to pieces by its gravity.
The Milky Way has black holes.
The answer to the last question is endlessly. The ultimate fate of the black hole is to form a nebula, and eventually turn back into a planet.
-
1 The reason for the formation is that the massive celestial body is compressed into a very small substance, forming a black hole, and the specific process and principle are not clear.
2 Black holes can absorb light, so they can't be seen, don't say it.
3. It's time to convert to quality.
4 can devour everything.
At present, the black hole theory is just beginning, and it can only theoretically prove the existence of black holes, and there is no concrete and direct evidence.
So the current question about all black holes is just inference.
Believe it or not, the existence of black holes is doubted, because the existence of black holes is only theoretical inferences. What is theoretical inference? Imagine that Albert Einstein was in a room all day doing mathematical and physical calculations and researching the theory of relativity, even though it was thought to be a fantasy at the time, who believed that objects would flow backwards when they were faster than the speed of light? Right, here's the problem, he's currently accepted by most scientists, so it means that the theory of relativity has the right theoretical basis, and it's probably true, so there's no technology that can reach the speed of light, only close to the speed of light, and then prove that speed is related to time, so the theory of relativity can be said to be mostly accepted.
That's it, black holes are just theories at the moment, and it's only a matter of time before they can be proven correct, and it doesn't matter if you believe it or not.
But it's one thing to believe that black holes exist or not, and it's another thing not to believe in black hole theories, and theories are just equations, so the conclusions drawn from the correct mathematical and physical equations are not a big surprise and are absolutely correct, and that's the rigor of science, and the mathematical or physical formulas that are impossible to arrive at are meaningless.
One of the most important aspects of the black hole theory is the relationship between gravity and velocity, because the black hole theory says that the escape speed of a black hole is greater than the speed of light (do you know what the escape speed is? For example, if you walk at a speed lower than the escape speed of an object, you will be around the object at a fixed distance forever, and you will not be able to go farther), so that means that light cannot pass through a black hole, and this is the answer. If a black hole exists, light can't pass through it, so I can't see it, even if you have a fiery eye.
It's an imaginary picture on TV, it's computer-drawn, and it's easier to understand.
The black hole is on a space voyage, but it's supposed to move very slowly.
And black holes are not holes, they are tangible and massive matter, and they shrink the weight of the earth to a grain of rice, which is comparable to black holes.
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
1. Is there a space-time distortion on the outside (around, nearby) of a black hole? What about the interior? >>>More
So far, the existence of black holes has been recognized by the vast majority of researchers in the astronomical and physical communities. However, quantum mechanics Fang Hui retorted that the singularity at the center of the black hole is quantum-unstable, so it is impossible for the entire black hole to exist stably. >>>More
Black holes are not difficult to understand. To put it simply, it is a celestial body with a very large mass and almost no volume. Its gravitational pull can draw in all objects within a critical range around it, and even light is no exception. >>>More
After the death of a supermassive star (supernova**), it becomes a white dwarf and further collapses into a neutron star (pulsar), and because the mass is too huge (greater than or equal to 10 solar mass m days, I can't remember if it is 10 >), the neutron star cannot resist the constraints of gravity and collapses violently again (implosion), and finally forms a black hole (black hole) that even light cannot escape!