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The black hole itself has a particularly strong attraction, and the black hole will absorb the substance according to the nature of the substance, not simply by the mass of the substance.
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Because the gravitational pull of a black hole is so strong that it can attract any matter, and light is also a substance, a black hole can absorb light.
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The more massive the celestial body, the greater the tort caused to space-time, and after the light passes through this region, it cannot continue to travel in a straight line, and the same twist and turn occurs, so we see that the light is absorbed by the black hole.
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Black holes are sucking in emitting light sources. It is the light source that changes with the motion of the black hole, and naturally it seems to be absorbing the light.
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Preface: A stationary photon has no mass, but a photon will fly forward after it appears, so a stationary photon does not exist. When photons move, they have momentum and energy, so photons in the universe have mass, and it is normal for photons with mass to be sucked into the black hole due to gravitational attraction.
The gravitational pull of the black hole is very large, and the space of the black hole is very distorted, because the mass of the black hole is too large, so it will cause the surrounding space to be distorted to an unimaginable degree, so as long as you get close to the black hole, any matter will be sucked in.
In the universe, black holes are a very terrible kind of celestial bodies, devouring any matter in the universe, although black holes are very terrifying, but black holes can not exist forever, because in the cosmic environment there will be positive ions and negative ions born, these particles will annihilate each other in a short time, if a pair of particles around the black hole one of the particles falls into the black hole, then the other particle will be annihilated, at this time it will be transformed from virtual particles to real particles.
In the process of transformation, the particles will also absorb the energy in the black hole, so the mass of the black hole will also be lost, and the black hole will slowly disappear over time. The reason why black holes can swallow any matter is also because the gravitational pull of the propelled force is very strong, and the density of any matter cannot be compared to that of black holes. Any moving object will have mass, and at the moment when the photon is generated, it has the speed of light, so it also has mass.
The space of a black hole is a distorted vortex, and there is no way for light to come out after it is inhaled, because the space is too distorted, and in the process of inhalation, the light will also be affected by the vortex, so it cannot be observed by humans. Because light travels in a straight line in space, but the mass of the black hole is very large, and the space distortion is relatively large, the light will be distorted along with the space, resulting in the phenomenon of being swallowed.
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Because the mass of the black hole is very large, very large, and faster, it is all dark inside, and the light cannot be seen after entering, so it is equivalent to being swallowed by the black hole.
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Black holes are the biggest secret of the universe, and black holes may exist beyond time and space. Because black holes have a strong ability to devour. Even light cannot penetrate a black hole.
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Because light is a type of light that diverges. And black holes are a very massive color that can devour everything, including light.
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Light has no mass, so how do black holes absorb light?
The black hole does not attract light sources, but because of the large mass of the black hole, the time around it is significantly bent, and the light is distributed in the linear shape of time, and the light is distributed linearly in the gravitational field of the black hole, but the time is uneven. According to general quantum theory, the essence of force is not the ambiguous relationship definition of Newtonian mechanics - the natural force of quality in most objects, but the distortion of time and space. Every chemical substance, regardless of quality, is also affected by space-time distortions, and in the space around the black hole, the light source will bend more and more than parallel lines, in fact, light walks in a straight line.
This kind of phenomenon is not unfamiliar with the main expression of attraction, and black holes can be said to be "deeply attracted to light sources".
When analyzing this problem, we can also treat light as a particle, if we can, the quality of this light particle is not nothing, but it is a light quantum, and there is no static quality, but we can have the quality of quantum theory because we know that it never stops moving. According to Einstein's equation of quality, matter and energy are essentially the same, matter and energy can be transformed into each other, if you know the energy of photons, you can know the quality of light quanta, but light quantum (quantum) energy can be calculated using the frequency of light.
From the standpoint of quantum theory and Newtonian mechanics, light quanta can be subjected to force, and black holes can attract light quanta. Why are light quanta distributed linearly in the critical plane diagram of a black hole? This situation is actually quite easy to understand, suppose a person on the earth walks along the earth's equator for a week, just follow the parallel line, for the person on the earth, he will definitely return to his footing, but if the cosmic space describes the path of the person, you are not in this situation, but in the curve.
Similarly, even within the gravitational field of a black hole, light that cannot be conveyed by parallel lines looks like it is conveyed by parallel lines, which is a small story for the light itself.
According to Einstein's quantum theory, the reason for the formation of force is generally the bending of quality objects in the vicinity of space-time, the bending of objects with large masses, and the actual effect of time is getting higher and higher The sunlight is okay (it has a certain effect on Quinrobert, but it is generally not observable, only in the total solar eclipse, such an effect is that in 1919, Father Eddington observed the total solar eclipse according to the reflection of sunlight, which verified the accuracy of the general quantum theory in the vicinity, because the time is very bent, Therefore, it can be seen that there is a huge change in the method of light mobility around the black hole.
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Although light has no mass, black holes can absorb light through attraction, and black holes are very dense, so light cannot escape in them.
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Black holes are attractive, and they can absorb all the photons into them. It also involves the bending of space-time.
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After all, the gravitational pull in a black hole is very large, and the black hole is a distorted space, so it can suck light into it and swallow a lot of things.
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I don't think the light is sucked in by the black hole, but the light goes into the black hole on its own.
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Because light belongs to matter and also belongs to energy, black holes absorb all matter and energy.
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In fact, light is not without mass, in fact, light just has no static mass, but it has moving mass, so the black hole can absorb light, not so much that the black hole absorbs light, but that the black hole changes the direction of light.
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Light is also composed of particles one by one, and it is also a kind of matter, so it is also within the scope of gravity. There is no way for light within the Schwarzschild radius of the black hole to escape. Because light has entered the event horizon of the black hole, the gravitational pull at this time has reached the speed of light.
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It is not to absorb the light, but to attract the glowing object, so the light naturally rotates, such as sucking the glowing flashlight, so the light can not follow the rotation? If the light source is outside the black hole, how can its light suck and rotate? It's a fact that light can't be transferred, and it can't be stored.
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The main reason is that space is distorted due to the strong gravitational pull of the black hole, and the space is not a flat structure, but the propagation path of light appears to be curved. In fact, light is deflected in the direction of large curvature, that is, the center of the black hole is deflected, and the more it is deflected, the greater the bend becomes, entering the black hole.
In physics, light always moves in a straight line in space-time, and black holes, as the most gravitational objects in the universe, severely bend space-time, and when 300,000 kilometers per second of light passes around the black hole, the propagation path also changes and is swallowed. When we often say that time is coordinated, there is an understanding of relative time, and the inherent time is the absolute value that is invariant according to the coordinate system expressed by the theory of relativity.
Regarding the difference in static mass and the nature of gravity, we can conduct a thought experiment, we know that the white light emitted by the sun is synthesized by electromagnetic waves of various frequencies, and the moving mass varies with the electromagnetic waves of frequency. The space in the event field of view is bent high due to its strong gravitational pull. An enclosed space is formed.
Because it is a closed three-week space, it is impossible to get out of this area as soon as you enter it, so the end of the event field of view looks like a black sphere.
According to the law of gravitation, we know that mass is required in order to produce the action of gravity between two objects, and light has no static mass. Therefore, as mentioned above, although the gravitational force of a black hole on light cannot be determined by the static mass of light, the gravitational force of a black hole can be corrected by using the dynamic mass of light as well as the law of gravitation. It should be noted here that although the mass of light is not involved in the whole correction process, the premise of using Newton's law of universal gravitation is that only the light has mass, that is, the light has mass, is considered to be corrected.
Einstein believed that as long as there is a mass object, it will cause the curvature of space-time, and the curvature of space-time represents the curved scale of space-time.
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The gravitational force described by the theory of relativity is essentially the curvature of space-time, which can be understood as a black hole is a nadir in space-time, and all matter flows to this low place like water, and the speed of escape is fast enough to escape, but the escape speed within the event horizon is greater than the speed of light.
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Light is an electromagnetic wave that is generated by the cutting of magnetic field lines by the "magnetic moment" of metallic hydrogen converted by a high-speed flowing substance in a magnetic field. Light has no volume and mass, but metallic hydrogen, which flows at high speed in a magnetic field, does. Metallic hydrogen is produced by cosmic rays, and the electromagnetic waves released by cosmic rays cutting magnetic field lines propagate through the resonance formed by the "magnetic moment" of metallic hydrogen.
It is an inaccurate description to say that the gravitational pull of a black hole "attracts" light. Light does not have a resting mass, so gravity cannot attract light. In fact, it is the terrible gravitational pull of the black hole that causes the space-time trap, and after this space-time trap is closed, the energy of the light is "locked".
Light without mass cannot be attracted to a black hole, but a gas with mass can be attracted to a black hole and becomes a thick atmosphere around the black hole, which has a strong refraction effect on the light that is close to the black hole and has a bending effect on the light. Don't mistake it for gravity-bending light. Huge celestial bodies like the Sun have a thick atmosphere around them.
This is a universal law in the universe. Gravitational lensing does not gravitationally attract light, but gravitationally attracts gas, which causes light to refract and bend.
There isn't much opposition from the mainstream scientific community about the existence of black holes. From the logical deduction of Newtonian mechanics can be the existence of black holes. Whereas, Einstein's theory of relativity can describe certain characteristics of black holes.
Cygnus X-1, located 6,000 light-years from Earth, is thought to be most likely a black hole. Currently, astronomers speculate on the existence of about 200 black holes, with the super-black hole at the center of the Milky Way being thought to be millions of times more massive than the Sun.
Black holes are the most mysterious objects in the universe. Not all stars can evolve into black holes, only stars with very large masses have a chance to evolve into black holes at the end of their phase. When a black hole is formed, due to the strong gravitational pull, space-time is superimposed, and all the matter that falls into the space-time trap can never transmit information.
If an astronaut falls into a black hole, it will be a journey of no return. However, the astronauts will not be able to see the singularity and move away from it, and the astronauts will be torn apart into a series of elementary particles by the black hole's powerful tidal force. Once the singularity is reached, even particles cannot exist because the dimensions disappear.
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It is an inaccurate description to say that the gravitational pull of a black hole "attracts" light. Light does not have a static mass bend and misses the amount of staring, so gravity cannot attract light. In fact, it is the terrible gravitational pull of the black hole that causes the space-time trap, and after this space-time trap is closed, the energy of the light is "locked".
Light without mass cannot be attracted to black burials and holes, but a gas search key body with mass can be attracted to black holes, turning into a thick atmosphere around the black hole, which has a strong refraction of light passing through the vicinity of the black hole and has a bending effect on the light. Don't mistake it for gravity-bending light. Huge celestial bodies like the Sun have a thick atmosphere around them.
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The general theory of relativity points out that the essence of gravity is that space bending is no longer the gravitational force in Newtonian mechanics, and all matter, whether it has a sharp edge or not, will be affected by space bending, so it can attract photons, and once photons are generated, they will always run at the speed of light, and there are no photons at rest.
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A black hole is essentially a celestial body that relies on its strong gravitational pull to engulf surrounding objects.
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Light has no static mass and is not subject to gravitational attraction. But according to Newton's theory of general relativity, the duration-of-the-interior space on the gravitational field is not flat but curved. Newton had already speculated that light would be deflected when it passed through a planet such as sunlight, and Eddington et al. confirmed the speculation of general relativity based on astronomical observations.
For objects as massive and gravitational as black holes, it will also cause obvious time bending, causing light to be unable to hit and run due to the bending of time.
Black holes are relatively dense objects, with great mass and strong gravitational pull causing their surface to escape faster than light, and nothing within it can be hit-and-run. According to the general theory of relativity, when a massive celestial body collapses, the space on its surface will bend, and once it collapses to a high-density level like a black hole, the black hole is equivalent to a singular point in the sky, and the time on the surface of the black hole has been bent so that even the light cannot break free.
In order to understand whether light quanta are attracted by black holes, we must deal with two questions, one is the physical system of gravity, and the other is the nature of light quanta. The essence of light should be thought of as a "quantum of light", which has wave-particle duality. Since the 20th century, people have understood beyond the scope of macroeconomics, so that the utility of indoor space as a physical environment has slowly emerged, such as the uncertainty of everything with the quality of Bicha.
The condition of black holes, because of their relative density and enormity, makes it far more difficult for chemicals to resist gravitational attraction due to their activity and repulsion.
will come together endlessly, squeeze each other, dissolve the closed management system, and revert to discrete variable quantum technology. As a result, a black hole is a large, hermetically sealed management system of high-efficiency energy molecules, which belong to the same level of chemicals as electrons and antiprotons. In general, light quanta will suffer from the attraction of black holes and fall into them.
Once in a black hole, there is no gravitational force between the light quanta, only the momentum between them is conserved, and the gravitational force changes to the repulsive force. That's why black holes end up in a big outburst and end their weird lives.
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How are black holes formed?
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.