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The most basic unit in quantum theory is the quantum, which is an unstable elementary particle, and its instability is manifested in the randomness of the direction of motion, which is the basic principle of its ability to cross walls. Quantum mechanics states that there are gaps inside any object, and the scale of these gaps is relative to the quantum, so the randomness of quantum motion has the opportunity to find these gaps and thus travel from one side of the wall to the other.
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The randomness of quantum motion has the opportunity to find these gaps and thus travel from one side of the wall to the other.
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In fact, no matter what the methods of classical mechanics and quantum mechanics can make the wall piercing technique come true, the easiest way is to break the wall.
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You may think, what's the problem? Of course not, isn't it natural for two objects to come together and not pass through each other? But if you think about the structure of atoms, you'll see that it's a bit of a brain-burner.
It is known that the world's universal forest is made of atoms, in the center of the atom, there is a positively charged nucleus, outside the nucleus is negatively charged electrons, if the size of the electron's orbit is regarded as the size of the atom, then the size of the nucleus is very different from the atom, only 1/100,000 of the atom.
What is the concept of 1 in 100,000? Suppose the nucleus is enlarged to one meter, then the diameter of the entire atom is 100 kilometers, which is equivalent to the distance from Shanghai to Suzhou. Imagine that most of the space inside an atom is so empty that when two atoms meet, it is almost impossible for the nucleus to touch the other nucleus, and it should be easy to pass through each other.
Then, there is also a large gap between the objects made of atoms, and when two objects meet, it should be possible to penetrate each other. Pepi acres.
But in fact, the objects around us seem so dense that we have never seen a person actually walk through a wall unless it is magic, why is that?
This is because the particles of the microscopic world follow the principle of uncertainty, the position of the electrons around the outer nucleus of the atom is uncertain, and they can appear in many places at the same time, and they also follow the Pauli incompatibility principle, simply put, there can only be one electron around the nucleus of a hydrogen atom, so that the space outside the nucleus becomes "hard" when it looks empty, and the atoms and atoms must keep a certain distance from each other without colliding together. So, the atoms are as hard as we can see, and they don't pass through each other when they collide, so it's impossible for a person to go through a wall.
Now, do you think the microcosm is a little incredible? If you find it interesting, then go ahead and start your journey of exploration, and maybe you will become the next master of physics.
Fantastic Knowledge Quarter of Quantum Mechanics
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Now in our lives, with the rapid development of science and technology, China has been in the forefront of the world in some fields, such as the field of quantum science. Modern China's quantum field research should be partially applied, so how do we use quantum physics to calculate the probability of passing through the wall? We can analyze the probability of penetrating the wall caused by molecular motion, after all, the thickness of the wall decays with the a-index, and the calm one will increase with the increase of volatility.
Quantum as we know it in our daily life is a concept in modern physics, and it is the smallest and indivisible basic unit of physical quantities. We have learned about molecules and atoms in chemistry, so these quantities are called quanta in physics, which is also the smallest basic unit in physics. In the continuous research in China, quantum mechanics was established by overcoming the difficulties of early quantum theory.
Quantum mechanics as we know it is the study of the structure and properties of elementary particles of atoms and molecules, and then applied them in our lives, which is a kind of research under our microscopic structure. Now we think that what can be done is quantum communication, which is very secure and not easy to crack. <>
So when we calculate the probability of passing through the wall, it is still applied, it is a physical method, but no matter how we calculate, we can know from a common sense that the probability of wanting to pass through the wall is very small, because the strong density is very large, and the energy required is very large. To put it simply, as the mass of the object and the width of the barrier increase, the transmission coefficient will decay exponentially, and the wavelength of human matter is on the order of 10 to the 36th power of the meter, which is smaller than the Planck scale, so the probability of a person trying to pass through the wall is almost zero. <
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First of all, we should calculate the thickness of the wall, and secondly, we need to know the power of passing through the wall, and we only need to know the volume of the quantum, so that we can calculate it well.
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First of all, we must understand a formula for quantum physics calculations, and then put it into the model, and after continuous testing, we can calculate the probability of passing through the wall.
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Treat the wall as a potential barrier, use the continuity characteristics of the wave function and the wave function derivative, obtain the corresponding boundary conditions, and solve them.
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It can be calculated with some microscopic particles, which also have a certain speed and mass, and the calculated probability is quite accurate.
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It is true that people can pass through walls, but in terms of a current development in the quantum realm. However, considering Einstein's quantum realm to calculate the time it takes to pass through the wall through a series of calculation formulas, it is about 10 billion from about 20 billion time years. It is conceivable that such a time is basically impossible for people, because human life is only about 100 years, and if you want to pass through the quantum realm, then basically people have been wiped out.
First of all, the first reason is that people are able to pass through the wall, and the first is through the collision of a law of quantum mechanics. First of all, this concept is a domain law that people have only proposed in recent years, and this domain law is also through a series of studies by Einstein, only to know that there is a corresponding quantum space, and if the space is established, he will carry out a repeated entanglement through the corresponding cushion in the body and the cushion of the wall.
The second is that if such quantum entanglement occurs, it will take a very long time. For such a long time, as the electric ions in the quantum, it is very certain that various protons can pass through the wall. After all, in the world that is invisible to the naked eye, every electron is moving all the time, and they are moving to another space, and these electrons are moving all the time, and they are also an important carrier for people to pass through the wall.
The third is that if the human body is leaning against the wall, a microscopic particle on the body collides with the microscopic particle of the wall. Through a series of collisions and exchanges, they slowly and slowly passed through the wall to reach the other side of the wall, which was the theory that people could pass through the wall at that time. After such a theory was proposed, many people sighed that in the invisible world of human beings, the quantum realm is so huge and macroscopic.
At that time, people also hoped to be able to quickly study this field and add bright colors to the future of technology.
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People can't pass through the wall for the time being, and the law of quantum mechanics explains that people and walls are a single entity, and the molecules of the two of them can't fuse together, so they can't pass through.
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Due to the limitations of human civilization and technology, people are not allowed to pass through walls. However, in the future, due to the development of human civilization, the more physical laws are mastered, the more breakthrough discoveries in the field of quantum mechanics will be. So in the future, humans may be able to pass through walls.
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I don't think you can pass through a wall, and the microscopic particles of quantum mechanics need to be done through a wall at a certain time and under certain conditions
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It's not very likely, because people have mass, and if you want to pass through an entity, you can't have quality in the first place. I can't get over it in form.
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In the eyes of our human beings, it is impossible to pass through the wall, only in mythological stories, but in the microcosm it is not an absolute!
Quantum tunneling effect, in the world of quantum physics, microscopic particles can pass through obstacles, even if the energy of the particles is insufficient, this probability is very large, our scientists call this phenomenon of particle motion quantum tunneling effect.
The specific origin of the quantum tunneling effect!
To know that everything in the universe, the cosmic vacuum and human beings are composed of particles, with the gradual deepening of human research on quantum physics, we have discovered the wave-particle duality of particles, in layman's terms, particles have both the properties of waves and particles, which provides a theoretical basis for the quantum tunneling effect, if we add the Schrödinger equation, we have a visual understanding of particles.
According to the description of the equation, when a quantum wave encounters a barrier, its amplitude will change, but the amplitude on the other side of the barrier is not necessarily zero, in simple terms, the particle has a chance to pass through the wall, which also theoretically explains the quantum tunneling effect.
The force and barrier of the particle limit the trajectory of the particle, there is a barrier in our space, so when the particle crosses, it will consume a certain amount of energy, if the energy is insufficient, then it will not be able to cross the barrier, but this is not the case, the discovery of the quantum tunneling effect, let us know that the particle can be even if the energy is insufficient!
Is quantum tunneling real?
The answer is yes, as early as more than 100 years ago, human beings discovered the quantum tunneling effect, but at that time human beings discovered a specific manifestation of the quantum tunneling effect, that is, "field electron emission", when the electrons are in different media, they will produce different reflection effects, which includes quantum tunneling, with the development and progress of human science and technology, human scientists found in the decay that the particles in the original nucleus can run out of it even in the late stage of decay.
In fact, although quantum physics seems to sound very mysterious, in fact, human research on microscopic particles has entered a new stage, some laboratory applications, laboratory samples have been made, such as the use of quantum tunneling effect of STM, which is a new microscope, it can clearly locate atoms, that is, the use of particle crossing after the generation of tunnel current, so as to form a visible image.
Although quantum physics is now a popular physics discipline, the research of quantum physics began decades ago, and now quantum physics has come to the forefront of science and technology, such as quantum access, quantum computers have launched experimental versions, and I believe that in the future, we can actually apply quantum physics to the convenience it brings us.
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Quantum tunneling is possible because electrons have the properties of waves. Quantum mechanics gives every particle the properties of waves, and the probability of a wave penetrating an obstacle is always limited, just as a sound wave penetrates a wall.
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This is the latest technology, quantum penetration is very strong, I hope to be able to use it in the future to do something meaningful.
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There is a person who can only climb a wall up to 2 meters high, trapping this person in a courtyard with a 4-meter high wall, and from the point of view of classical mechanics, this person will not escape from the wall. In the quantum world, if a particle is trapped between a barrier (equivalent to a high wall), even though the energy of the particle is lower than the height of the barrier, there is still a chance that the particle will escape through the barrier, as if there is an invisible tunnel to pass through. Such a thing could not have happened in the understanding of classical mechanics.
If the calculations are strictly followed by the relevant formulas of quantum mechanics, there is still a certain chance that a person trapped in the wall will pass through the wall, although this probability is so small that it will not happen once since the birth of the universe, but it is not zero after all. The chance of an object trapped in a barrier passing through a wall is related to the mass of the object and the thickness of the barrier, and when the mass of the object drops to the level of particles, the chance of particles passing through the barrier is greatly increased. At present, electronic devices can be made very small, quantum effects have long been to the point where they have to be considered, and there are even some components that rely on quantum tunneling effects to work.
Hydrogen fusion on the Sun has been going on for five billion years, and it can continue to do so for five billion years. Massive stars may only have a lifetime of a few million or even hundreds of thousands of years. The mass of the sun is not large enough to overcome the strong Coulomb force that squeezes two positively charged hydrogen nuclei directly together.
There is a strong barrier between two hydrogen nuclei, but the quantum tunneling effect allows some hydrogen nuclei to cross the barrier and fuse with another hydrogen nucleus. Without quantum tunneling, there would be no sun and no humans.
This "wall penetration" in the quantum world is the embodiment of waves, and the speed of passing through the wall is the speed of the wave. In the quantum world, matter has both fluctuation and particle, and if you ask how fast a particle passes through a wall, the particle nature of matter can be reflected here. The velocity of the particles is the swarm velocity of the matter waves, that is, the speed at which the particles pass through the wall.
This speed is not a fixed value, but it can be determined that it will never reach the speed of light.
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