In the second chapter of Zhuan Falun, The Question of Heavenly Oke, author Li Hongzhi says: “Compared to living beings on other planets of our universe, where there are higher minds, the scientific and technical level of humanity remains rather low. We cannot even break through into another space that exists at the moment and in this place. "Flying saucers" arriving from other planets fly in other spaces, where a completely different concept of time-space prevails. ". [more]
In addition, “… Everyone knows that a particle of matter is a molecule, an atom, a proton … and at the very end, if you investigate further in this direction and at each level see the plane of this level, and not some point of it, then you would see the plane of the level of the molecule, the plane of the level of the atom, the plane of the level of the proton, the plane of the level of the nucleus of the atom and would see the forms of existence of matter in different spaces. Any objects, including the human body, simultaneously exist and communicate with different levels of the Universe. Our modern physics, engaged in the study of particles of matter, studies only one particle, it is separated and split, after the splitting of the atomic nucleus, its composition is studied. If there was such a device with which you can see the integral embodiment of the entire atomic or molecular composition at this level,if we could see this picture, we would have already broken through this space, we would have seen a genuine picture that exists in other spaces. The human body has a relationship of relationship with external spaces. These are the forms of his existence."
Modern science has approached the understanding of space-time, similar to that set forth in Zhuan Falun.
Scientists' study of time-space can be divided into three phases. In the first phase, Isaac Newton believed that the universe was mechanical and regarded it as a precise machine that worked following an unchanging set of rules based on classical physics. For example, the Earth revolves around the Sun, and galaxies are like a mechanism in a huge clock. This mechanical concept of time-space is a system with absolute time and absolute space. It completely isolates time and space.
The second phase was based on Einstein's Theory of Relativity. The concept of relative time-space was established, uniting time and space. In any inertial system, time is measured by a clock that has the same structure as the system and is relatively related to the system. Generalized Theory of Relativity abolished the concept of an inertial system and linked matter, motion, and time-space together through the concept of bending space, refusing to isolate time and space.
However, Einstein's general "Theory of Relativity" can only describe a stationary and uniformly distributed isolated time-space. She did not establish the physical concept of the dynamic diversity of time-space of higher dimensions, nor did she consider the development of time-space structures. In addition, recent data show that the precession of mercury and the presence of sources of X-ray bursts challenged Einstein's theory of general relativity.
By the time of the third phase, modern science had already learned that the time-space of the world in which we live is very complicated and is not only something that we humans can see with our eyes. Based on this, people developed the modern theory of time-spaces.
2.1 Modern theory of time-space and the concept of time-space in quantum physics
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The main starting point of the modern theory of time-space is that the universe is composed of all kinds of time-space structures with different dimensions.
The essence of the diversity of time-spaces of higher dimensions is a composite flow of energy. Thus, the essence of space is the flow of energy. For example, "Superstring Theory" is based on the fact that real time-space is multidimensional, and consists, perhaps, of 10 or even 26 dimensions.
For example, let's take 10 spaces. Quantum mechanics states that all particles are wave in nature and the wavelength, l, is calculated by the formula h / p, where p is the momentum of the force and h is Planck's constant. If the wavelength of the particles is much larger than the size of space, then the measurement will be compressed. According to the Kaluza-Klein theory, in order to obtain the correct gravitational constant in compressed 4-dimensional time-space, the size of the other six dimensions must be within the Planck scale lp (lp = h / (mp * c), where the denominator represents momentum). Thus, it can be observed that in order to detect the other six dimensions, the particle momentum must be greater than (mp * c), which makes l <lp, that is, the other six dimensions will not be compressed.
But the large amount of energy that would be needed to generate such a large impulse exists only in the imagination and cannot be produced in a modern laboratory. People with superpowers have qi (chi) energy, according to the results of experiments, many high-energy particles were found in the external qi of qigong masters with powerful superpowers, including (alpha), (beta), (gamma), thermal neutrons, and so on. Therefore, if the energy of the high-energy particles emitted by people with superpowers is high enough, it is possible that the other six dimensions could be detected.
In the holographic universe, information about all things in a certain volume is demonstrated on its surface in a certain way. The latest research on "Superstring Theory" indicates that the universe is like a holographic picture. For example, the Mardazein model demonstrates that a 4D field can be a holographic projection of a 5D field, just like a laser hologram of a 3D object is projected on a 2D plane.
In the past decade, modern cosmology has advanced many hypotheses regarding the creation of the universe, including a mixture of quantum physics and generalized "Theory of Relativity", especially the achievement of a symmetric crash phase transition in normal field theory. The Big Bang Theory, Sudden Expansion Theory, and Cosmic String Theory are all important elements of these theories.
For example, according to the "Chaotic, Sudden Expanding Universe" model put forward in 1983 by A. Linde, there were a number of cosmic regions in the Universe at an early age. Each space region expanded exponentially, and mini-bubbles of the universe were formed, sizes outside the observable observable universe. Each bubble could evolve into a corresponding universe. The universe we live in is one of them. These Universes are connecting with each other. According to Einstein's Theory of Black Holes in 1935, black holes can distort space. These are tunnels in the universe that can bring distant places close. That is, different universes can connect with each other through these holes. However, in a black hole, the gravitational force is so high that everything that falls there collapses.
2.2 Multidimensional time-space theories
As stated earlier, modern science has already learned about the existence of many dimensions, and a large number of different theories have been proposed, like those mentioned above. However, these theories still have many problems. For example, using the Big Bang theory, we cannot explain what the universe was like during 0-10-43 seconds after the Big Bang. Why didn't the number of particles and the number of antiparticles coincide? Why was the ratio of photons to particles 10-9? From observations after 1992, the so-called "Big Bang" ball lightning found in 1964 was found to have temperature fluctuations, that is, its density fluctuated. This was not in line with the Big Bang theory.
On January 9, 1997, the authoritative journal Nature published an article on the distribution of stellar systems. The article pointed out that supernovae are located in the form of a crystal lattice. Each rectangular cell has sides 360 million light years long.
According to Dr. J. Einasto of the Tartu Observatory in Estonia, supernova dispersion is like a three-dimensional checkerboard. In February 1990, astronomer J. Broadhurst from Durham University, UK, with a committee made up of scientists from many countries, conducted vertical observations of a limited area of space.
The observed range was six billion light years. They used pencil beam scanning equipment and confirmed that supernovae were periodically spread over intervals of 300 million light years. Astronomers already knew that galaxies could have formed disk-shaped or string-shaped supernovae. These supernovae orbited space without galaxies. However, scientists did not expect to see periodic structures at all.
This observation has raised questions about our current understanding of the universe. According to the Big Bang theory, supernovae should scatter randomly across the universe. Dr. Marc Davis at the University of California, Berkeley stated that if supernova dispersion was periodic, we could confidently conclude that we know nothing about the form of our universe on its early stages.
Superstring theory also has some problems in this regard. For example, Quantum Chromo Dynamics (QCD), which has been lifted up according to Superstring Theory, is able to incorporate strong forces, weak forces, and electromagnetic forces into its theory, but not gravitational forces. Also, are these four types of forces the only ones in the universe? The super-explosive power of gamma rays cannot be easily explained within these four forces. Superstring Theory cannot explain this phenomenon. In addition, the concept of dimensions in "Superstring Theory" does not explain the physical nature of the development of the Universe. It is impossible to verify the conclusions drawn from this theory.
Physicists would have to build a particle accelerator with a circumference of 1,000 light years. The circumference of our solar system is only "one daylight hours". Superstring Theory took mathematics to the extreme in the space of physics and is known as the Dance of Mathematics. This turned the study of the universe into a mathematical game on the verge of meaninglessness about physics. So it turned into a work of aesthetics.
The author of Zhuan Falun, Li Hongzhi, revealed the essence of the universe as consisting of energy. In fact, the existing theory of time-space has also come to understand that the essence of space is energy flows. Quantum mechanics tells us that under various conditions, microcosmic particles can exhibit either particle properties or wave properties. This gives rise to the concept of "double particle-wave quality".
However, at the subatomic level, the separation between the wave state and the particle state disappears. Matter cannot be characterized as it is both a wave and a particle. Waves are forms of energy and do not show the visible properties of a particle. However, we cannot say that they are not matter. At this point, the concept of matter begins to change; that is, energy is also matter. Einstein's Theory of Relativity says that the relationship between energy and matter is E = mc2. This tells us that the mass of matter is a form of the surface feature of energy and therefore, matter is energy. Matter and energy are united, and the concept of the "double quality of the particle-wave" is evidence of this unity. Since energy is an inherent quality of matter, it is also the essence of the universe. In essence, the universe is made of energy.
It is known that matter consists of molecules, atoms, nuclei, electrons, protons, neutrons, various mesons, hyperons, resonating particles, layer by layer up to neutrinos. The interdependence of matter at various levels in this universe is based on energy. The smaller the particle, the higher its energy level. The development of the Universe is interaction, movement and transformation between different energies at the same level or between levels.
Energies at various levels include kinetic energy of colossal astronomical bodies (galactic groups, milky ways, stationary stellar systems), mechanical energy of objects around us, biological energy, functional energy inside molecules (thermal energy, chemical energy), functional energy inside atoms (nuclear energy), energy in space bounded by quarks, the beam energy of neutrinos that can easily penetrate steel plates 1,000 light years thick, and even more microscopic or macroscopic unknown states of energy.
The corresponding energetic value of interactions between crystalline and biological particles is several electron volts. Organic and inorganic molecular interactions have a corresponding energy level of several kilograms of electron volts. Atomic nuclei have a corresponding energy of several mega electron volts. Protons and neutrons have corresponding energy levels of several hundred mega electron volts. Quarks and neutrinos have a corresponding energy level that existing technology cannot detect.
Modern science can only study the existence of subatomic particles at a single point. It is unable to cover the entire space in which a microscopic particle exists. This is because examining more microscopic particles requires higher energy levels. Today, the highest energy level available in a laboratory is the neutrino level. Not only is this energy level far from being able to comprehend the true origin of matter, but also modern science cannot have any effect on particles more microscopic than neutrinos. At the microcosmic level, different spaces and energies of different particles in substances make up correspondingly different dimensions.
To date, science has already recognized Planck's constant h, which draws the line between macroscopic and microscopic physics. This is an example of the characteristics of different levels in different dimensions. All matter exists in numerous cosmic times, which exist simultaneously in the same place. Each dimension has its own time and cosmic structure, which constitute a specific form that allows life to exist.
What we feel and with what we are in contact is made up of a macroscopic substance, molecules. We are located within the space of molecules and astronomical bodies. Modern science also recognizes that there is a vast space between the electron and its corresponding nucleus. The existing theory of T-duality connects these two types of particles, vibrating and spinning particles formed by a string spinning in a limited dimension. T-duality theory postulates that rotating particles of radius R and vibrating particles of radius 1 / R are equivalent, and vice versa. Thus, if the Universe is compressed to the size of the Planck length (10-35 meters), then it will transform into a compressed Universe. This compressed universe is expanding, while the original is contracting. Because of this, on an extremely minuscule scale, the universe appears to be exactly the sameas on a large scale.