Li Jin stuffed the body of the four-tailed demon cat into the Humvee. Pen fun and pavilion www.biquge.info

Fortunately, the four-tailed demon cat, as an agile mutant beast, is not like other power-type mutant beasts, and its body movement is more than ten meters long, so it can't be stuffed into a small Humvee, while the four-tailed demon cat is more than two meters long, which is just crammed into the trunk.

After the members of the Vulcan clan reunited, they continued to advance towards Donghai City, which was not far from Donghai City, and if they were to ride the Golden Crown White Eagle at full speed, they would be able to reach it in less than a quarter of an hour.

But they hunted mutant beasts as they advanced, and they only walked less than half the distance in half a day.

They continued to hunt mutant beasts along the way, using the wilderness forbidden area as a training ground and hunting ground, and in the non-stop high-intensity battles, the combat ability of several people, the comprehension of the mystery and the tacit understanding of teamwork were all significantly increasing!

The Vulcan team has also gained a lot, and the crystal nuclei of the beast general level have been obtained a lot, not to mention the various mutant beast materials, which can be sold for sky-high prices.

At the same time, in the section of the Shanghai-Hangzhou high-speed railway close to Donghai City, there are strong people in Donghai City cleaning up mutant beasts near the railroad tracks.

The powerhouses of Tokai City are divided into three groups, the first group is a warrior unit led by the military department, the second group is a team of free warriors led by the warrior tavern powerhouse of Tokai City, and the third group is more peculiar, a robot force led by a blonde and blue-eyed Western warrior.

(Sanjiang recommended and didn't over, no one paid attention to it if it wasn't recommended, the collection didn't increase, there was no motivation, I don't know how many people were supporting, the mood was not high, so let's put some information today.) The background of this book is very grand, the earth chapter is followed by the galaxy chapter, and then the universe...... I will write this book from both macro and micro perspectives! ）

There are about 150 globular clusters in the Milky Way, each of which is densely packed with stars, so to speak, as the nursery of the stars. These globular clusters are the focus of astronomers' attention, and they are like inhabited areas within the Milky Way, where the presence of a large number of stars means that there are a large number of planets. Each star cluster has millions of stars in it, so the number of planets is at least tens of millions, because we currently find that almost all stars are surrounded by planetary systems, and on average, each star can have several planets. A large number of stars are gathered here, providing conditions for life to flourish.

In 1925, based on de Broglie's concept of "matter waves", Schrödinger proposed the Schrödinger wave equation, which caused a sensation in the history of physics in the 20th century, using the mathematical model of waves to describe matter. Schrödinger affirmed: "Waves, only waves are the only reality." Whether it is an electron, a photon, or any particle, they are essentially waves, and they can all use wave equations to express the basic mode of motion. “

In 1926, Paul Dirac proposed the quantum field theory, which believed that a particle is a phenomenon of concentration and aggregation in a continuous wave field, so to describe a substance, it must contain both a concentrated body in the middle of the field and a quantum field that expands infinitely.

In the late 1940s, Richard Feynman, Julianschwinger, and Sinitiro Tomonaga further revised Dirac's originally somewhat crude quantum field theory into a quantum electrodynamics (QED) theory. Through QED theory, people can more accurately describe the field effect when light interacts with matter, and this field effect is the real shadow dancer hidden behind the action of matter.

In 1952, physicist David Bohm published a paper in the journal PhysicalReview that attempted to explain quantum theory with hidden variables, explaining the Schrödinger wave equation as a concept of an information field. He believes that in order to fully describe a substance, there should be three aspects: matter, energy, and information. Matter is the actual manifestation that we can see in the three-dimensional space, energy is the visible or invisible interaction between matter, and information is the hidden order hidden behind these two phenomena. He called this hidden order, which cannot be seen but can be felt, quantum potential, or hidden order. The potential of the quantum potential is the tendency of an event to occur or not, as if it were the cause of the occurrence of the event, so the quantum potential of matter can also be explained as the information field of matter. The higher the quantum potential of matter, the stronger the information field transmitted to the outside world, and the greater the probability of an event. Bohm's solution to the quantum potential theory cleverly explains the physical connotation of Schrödinger's probability wave function of matter. According to Bohm's quantum potential, it can be deduced that the essence of matter implies an invisible information field, and each substance has a unique information field of each substance, and through the interference of waves, individual substances can draw information from the surrounding information field (formed by other substances or the environment), and at the same time, matter will continuously release its own information to the surrounding information field. Bohm's theory can be simplified as: if the material particles are in the endless sea of information, this sea of information is shared and created by all matter in the universe, so all things in the universe share the information field released by all matter, that is, the universe is a holographic body.

In 1975, physicist Frantj of Capra mentioned in his book "The Way of Physics" that the quantum field is the fundamental existence of physics, a continuous medium spread over space, and particles are nothing but local condensation of the field; It is a concentration of energy that comes, comes, goes, and goes. According to Bohm's theory of hidden order, there is a high-dimensional sea of energy or information hidden within matter. In this boundless sea of energy, there are all possible states of events, and the material phenomena in our three-dimensional space are nothing more than a manifestation projected or bloomed by specific quantum states in the hidden order. Bohm's energy sea is composed of light containing all the electromagnetic wave spectrum, and the light in the sea vibrates at the highest frequency, and when the vibration frequency slows down, the light is condensed and condensed into electromagnetic waves, sound waves or matter in three-dimensional space. In the eyes of classical physics, the atoms that make up matter are like hard billiard balls. In the eyes of quantum physics, the atomic structure is like a football field, with a baseball-sized nucleus standing alone in the center of the football field, surrounded by an elusive cloud of electrons. The whole football field is actually empty, and in this almost vacuum space, there is an invisible quantum field hidden, and the electromagnetic effect between the atomic nucleus and the electron is the manifestation of the interaction between this hidden energy field (information field). Since matter is dependent on the operation of the information field, the information field is composed of waves, and the role of the field is actually the effect of waves. Waves have the property of resonance, which converts low vibration frequency into high vibration frequency.

5. Summary▲

How similar is the development of photon cognition (view of matter) in physics to the development of DNA cognition (outlook on life) in biology:

Non-living things: light waves (electromagnetic fields)—& amp; amp; amp; amp; amp; amp; amp; gt; Photons—& amp; amp; amp; amp; amp; amp; amp; gt; Matter Waves (Wave Equation)—& amp; amp; amp; amp; amp; amp; amp; gt; Quantum Field—& amp; amp; amp; amp; amp; amp; amp; gt; Information Field—& amp; amp; amp; amp; amp; amp; amp; gt; The universe is a hologram

Biological DNA: Biofield (Electromagnetic Field)—& amp; amp; amp; amp; amp; amp; amp; gt; Biophotons—& amp; amp; amp; amp; amp; amp; amp; gt; DNA Phantom Field—& amp; amp; amp; amp; amp; amp; amp; gt; DNA Language Waves—& amp; amp; amp; amp; amp; amp; amp; gt; DNA is a hologram of genes

The development of the biological and non-biological worlds is the same thing, so the holographic body connecting the two is the legendary God?

Jiang Kanzheng's field guide experiment proved that DNA genetic information can be transmitted through electromagnetic fields.

Kaznacheev experiments, proving that death (DNA genetic information) can be transmitted by ultraviolet photons

The DNA phantom effect experiment proves the existence of a DNA phantom field (DNA information field) that can interact with the electromagnetic field

DNA and emotion experiments have demonstrated that the effects of human emotions on all of their own DNA can occur instantaneously and simultaneously, no matter how far apart.

DNA modulation experiments have proved that DNA language waves can be modulated by lasers, radio waves and even sound waves, which means that electromagnetic fields or sound fields can read and write DNA holograms.

What does all this mean? Whether it's the concept of "particle", or the concept of "wave", or the concept of "field", these are just different ways of expressing frequency, and maybe it's really frequency that is the essence of everything. Whether this is the case or not, we will explore this question in detail in the next article.

Science Net, December 4, 2007 -- Swedish scientists recently proposed that if quarks that make up protons and neutrons are indeed made up of smaller particles, preons, then it is possible to detect pre-stars in the universe that are denser than neutron stars and quark stars, and its density is like concentrating the mass of the moon on an object the size of a pea. The paper was published online in PhysicalReviewd. Fredriksandin and Johanhansson of Luleå University of Technology in Sweden said that preferns may exist in ultradense blocks after the Big Bang, and these objects can be detected by existing astronomical observation techniques. This conclusion makes a highly uncertain hypothesis a testable view. If the former daughter stars do exist, they may account for a large part of the mass of dark matter in the universe. For a long time, human beings have gradually learned about the composition of various particles. Atoms are made up of protons and neutrons (collectively called hadrons) and very light electrons. Hadrons, in turn, are made up of 6 types of quarks. In addition, there are six electron-related elementary particles, leptons.In 1974, physicists Jogeshpati and Abdussalam speculated that a family of particles called "pre-tons" might explain the differentiation of quarks and leptons.From 1999 to 2002, Hansson and colleagues published a book in High Energy Physics-Phenomenology (/abs/hep-ph/9909569) and European Physics Letters (J., 188- 194, 2002) proposed that three types of pre-protons are sufficient to construct all known quarks and leptons.In 2005, Hansson and his student Sandin continued to investigate whether matter could combine into blocks in the state of pre-contins instead of "condensing" into quarks or hadrons, and the answer was that it was possible (, 1-7, 2005). These pre-daughter blocks (pre-daughter stars) are denser than quark stars and neutron stars.Researchers believe that pre-daughter blocks cannot have been formed by the collapse of stars, but they can be remnants of the Big Bang.As the nascent universe expands, the matter in it becomes thinner, thus becoming quark matter from pre-material and eventually to atoms that build stars and interstellar gas. The researchers calculated that the mass of these pre-feron "bubbles" is smaller than that of ordinary stars, no more than 100 times the mass of the Earth, and the diameter of the pre-child "bubbles" is not more than a meter. Although there is no lower limit, Sandin and Hansson believe that the smallest prehensal block should be the size of a pea and that it has a slightly smaller mass than the moon. One can imagine how difficult it is to find such objects scattered in the vast universe. Still, researchers say there are ways to find them. First, from Earth, these ultra-dense objects are able to bend the light coming from behind them, which is known as the "gravitational allensing effect." Sandin and Hansson say that because of the small size of the precedent, they have the strongest effect on cosmic gamma rays – causing the gamma ray spectrum to wobble. If the two pre-subblocks happen to form a co-orbital double "star" system due to gravity and are located near the Sun, then the gravitational waves (space-time fluctuations) emitted by them will be captured by the gravity-wavedetector. If these two precedent blocks are small, the high-frequency fluctuations they emit can be detected without even using existing large detectors, but only with a desktop device. In addition, if a tiny pre-daughter block hits the Earth, it also excites detectable seismic waves.Hansson says that they are so small that they can only drill a hole in the Earth.However, they leave a trail of seismic waves in a straight path, which is significantly different from the friction between continental plates.Now, it seems impossible to create pre-daughter matter, because it would require a re-enactment of the Big Bang.So how will other physicists react to the pre-daughter star claim? Hansson himself says, "They're either very enthusiastic about it, or they think it's worthless garbage, and there's not a lot of people in between." However, John Charap, a theoretical physicist at QueenMary College, seems to be such an in-between. "It's not a completely crazy idea, after all, we need some nice crazy ideas to make progress on understanding dark matter," he said. We are now struggling to find a plausible explanation for dark matter, and the new ideas may be good candidates like others."

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Gluon. Each nucleus is made up of protons and neutrons, while protons and neutrons are made up of quarks, which are joined together by gluons!! In terms of size, quarks are only much smaller than the nucleus of an atom. For example, a proton or neutron is made up of three quarks and gluons. It can be seen that quarks are not much smaller than the nucleus. And the mass of the electron is 1/1836 of a proton or neutron, which should be small enough. There is also a hot topic in physics in recent years, that is, neutrinos, which pass through the body as many as trillions per second, but we don't know it, because it is so small, so small that it may have no mass (some scientists say that it is one millionth of the mass of electrons), and quarks are smaller than it, and they can only bow to it. Gluon gluon theoretically predicts the transmission of particles with strong interactions between quarks. There are 8 types in total, with a static mass of 0 and a spin of 1, with a colorcharge. The electromagnetic interaction between charged particles is achieved by exchanging photons; By analogy, the strong interaction between quarks with color charges is achieved by exchanging gluons, except that photons are not charged, and the photons themselves cannot emit or absorb photons; Gluons have a color charge, and there is also a strong interaction between gluons, and the gluons themselves can release or absorb gluons. No free gluon has been found, but the 1968 electron-to-proton deep inelastic scattering experiment showed that the proton has a dot-like structure, and only half of the proton's energy is carried by the charged dot-like matter, and the other half is carried by a neutral non-electromagnetic component. According to the quark model, the charged dot-like structure is a quark, and the neutral component is the gluon, and the experimental results provide an indication of the possible presence of gluon. In 1979, the three-injection phenomenon was discovered in the high-energy positron collision experiment, which further showed the existence of gluons.

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