What do you think about the egg-generating galaxy of the Earth 1,400 light years away?

A group of scientists were talking about...

Let's learn about the universe before making decisions...

The International Space Administration uses video projection to explain the universe...a light screen appears

The universe is the general term for all things, the unity of time and space. The universe is the material world, which does not depend on human will and exist objectively, and is in constant motion and development. It has no beginning or end in time, and has no boundaries and no end in space. The universe is diverse and unified; diversity expresses the diversity of states in matter; unity lies in its materiality. The universe is a unity composed of space, time, matter and energy...

Every place in every universe has different energy, including positive energy, dark energy, and no energy.

The most popular theory is the Big Bang theory. According to the Big Bang theory, the development history of the universe can be expressed as a closed curved surface with an open right end.

Markla said: Look at the picture here. The center of the left end is the explosion singularity, extending to the right for 13.7 billion light years. From left to right, the singularity, the early expansion of 400,000 years, the dark period of nearly 400,000 years, and the development period of stars, galaxies and planets appeared, and the accelerated expansion period containing dark matter and dark energy. In other words, the universe is expanding...

The shape of the universe is still unknown

Scientists are boldly imagining. Some say that the universe is actually a small cell of a creature similar to humans, while others say that the universe is a program or a small original created by a computer creature with higher intelligence than humans. Some people also say that the universe is actually an electron. The universe is a much smaller thing than electrons. The universe does not exist at all, or the universe is invisible. Some people also guess that our universe lives in a large space, called "superspace". In hyperspace, there are many universes, and the energy of the hyperspace is conserved and very huge. Whenever the energy of a universe rises, the energy of its neighboring universe will decrease.

Using the entire galaxy as a lens to view other galaxies, the researchers have recently used an accurate method to measure the size and age of the universe, and how it expands rapidly. This measurement confirms the practicality of the "Hubble Constant", which indicates the size of the universe, confirming that the age of the universe is about 13.75 billion years.

Scientists continue to look at the projection of the universe... The universe may be a superfluid, which means we may live "underwater". New research shows that space-time may have properties like the mass of a fluid. It can be considered a superfluid. This substance is different from other substances, but can provide a new medium for photons, just like sound spreading in the air.

Some researchers believe that if this medium that can "carry" the motion of photons exists, its viscosity should be zero, which will open up a new theory for us to explain this strange phenomenon through quantum gravity theory.

What exactly is space and why space is "empty", but space carries the movement of all matter such as photons, electromagnetic waves, etc. There has never been a definite answer to this question. In this regard, scientists believe that space-time itself may be a superfluid, and this explanation can be used to interpret the movement of some matter. If the theory is correct, then we may re-examine the standard model of physics. Scientists at the University of Munich believe that space-time is considered superfluid as superfluid vacuum theory. The development is based on previous research by scientists on space-time. If we want to prove that the superfluid theory is correct, we must first solve the problem of viscosity.

OK, these are some unproven issues, so what do you think?

Researchers said: The universe should have no beginning and no end, no beginning or end.

Well, your point of view was speculated decades ago, and it is indeed possible. So what do you think of other people?

Someone asked back, "The projection just now also said that the universe is a superfluid. If the universe is a superfluid state, do we live in a super giant's body? Planets are some kind of cells of this super giant. The interaction of gravity ensures that this super giant exists, and the superfluid state is cell fluid?"

Well, this possibility is not ruled out, but these all need to be explored by our scientists from generation to generation.

It's so mysterious. We need to know too much, and we hope to understand more about the mysteries of the universe in our lifetime. Because of this, countries should unite and concentrate on research and development. Don't always stick to immediate interests and jointly explore the mystery of science.

Someone retorted: "If the universe is in the so-called supercurrent state, it proves that ether exists and that relativity is wrong. How do you explain this?"

Then I ask you why Alexander's theorem was overthrown? Because as long as you can prove something that cannot be explained, you are the next Newton! As long as you can overturn some things and prove them, you can also overturn gravity!

Supercurrent? Isn’t that Ether? Didn’t Aristotle come up with it? But did he come up with it?

Without the support of observation data, it is like the current string theory that cannot be verified is metaphysics! Otherwise, there would not be so many concepts.

If space is a superfluid, then, does it blend with the atmosphere? If it does not blend, where is the dividing line? Does superfluid have mass? If it has mass, where does the gravity it generates manifest? I think the universe is a huge "black hole".

Let's take a look at the projection explanation of black holes

A black hole is a singularity in the center with infinite density, infinite space-time curvature, infinite size, infinite heat, and some empty sky area around it. It is not visible within this sky area. According to Albert Einstein's theory of relativity, when a dying star collapses, it will gather a little, and it will become a black hole, swallowing all light and any matter in the neighboring cosmic region.

The generation process of black holes is similar to the generation process of neutron stars: a star is preparing to perish, and the core quickly shrinks, collapses, and explodes strongly. When all the matter in the core becomes neutrons, the contraction process stops immediately and is compressed into a dense star, which also compresses the internal space and time. However, in the case of a black hole, because the mass of the star core is so large that the contraction process continues endlessly, even the repulsive force between the neutrons cannot be stopped. The neutron itself is crushed into powder under the attraction of the squeeze gravity itself, and what remains is a matter with an unimaginable density. The gravity generated by high mass makes any object close to it sucked in by it.

Usually, stars only contain hydrogen elements at first, and the hydrogen nuclei inside the star collide with each other at any time to fusion. Because the star is very large, the energy generated by fusion is in harmony with the star's gravitational force to maintain the stability of the star's structure. Because the fusion of hydrogen nuclei produces a new element - helium element. Then, helium atoms also participate in fusion, changing the structure, and generating lithium elements. And so on, according to the order of the periodic table of elements, there will be beryllium, boron, carbon, nitrogen, etc. in sequence until the iron element is generated, and the star will be

It will collapse. This is because the iron element is quite stable, and the energy released when participating in fusion is less than the required energy, so the fusion stops. The iron element exists inside the star, causing the star to not have enough energy to compete with the gravity of the huge star, which triggers the star to collapse and eventually form a black hole. It is said that it is "black" because the gravity it produces makes the light around it unable to escape. Like neutron stars, black holes also evolved from stars with mass dozens or even hundreds of times larger than the sun.

When a star ages, its thermonuclear reaction has exhausted the fuel in the center and the energy generated by the center is not much. In this way, it no longer has enough power to bear the huge weight of the shell. Therefore, under the heavy pressure of the shell, the core begins to collapse, and matter will unstoppably march towards the center point until it finally forms a star with a volume that is close to infinitesimal and has almost infinite density. Once its radius shrinks to a certain level (must be less than the Schwarzsie radius), the space-time distortion caused by mass makes it impossible for even light to shoot outwards - a "black hole" is born.

Black hole stretches, tears and swallows stars

Black holes are usually discovered because they gather around the surrounding gas to produce radiation, a process called accretion. The efficiency of radiating thermal energy of high-temperature gases can seriously affect the geometric and dynamic characteristics of the accretion flow. Thin disks with higher radiation efficiency and thick disks with lower radiation efficiency have been observed. When the accretion gas approaches the central black hole, the rotation of the radiation they generate to the black hole is the flow of the central extended material system. Accretion is one of the most common processes in astrophysics, and it is precisely because of accretion that forms many common around us.

The structure of galaxies formed in the early days of the universe when gas flowed towards the center of the gravitational potential well caused by dark matter. Even today, stars are still formed by the accumulation of gas clouds under their own gravity, and then by accretion of surrounding gas. Planets (including the Earth) are also formed by the accumulation of gas and rocks around the newly formed stars. When the central celestial body is a black hole, the accretion will show its most spectacular side. In addition to accumulating matter, black holes also radiate particles outward through Hawking's evaporation process.

Since the density of black holes is extremely large, according to the formula, we can know that density = mass/volume. In order to make the density of black holes infinitely large, but the mass of black holes remain unchanged, it means that the volume of black holes must be infinitely small, so that they can become black holes. Black holes are dead stars formed by some stars after the "demolition" of stars. It has a huge mass and a small body. But black holes also have the day when they perish. According to Hawking's theory, in quantum physics, there is a phenomenon called "tunnel effect", that is, although the field strength distribution of a particle is as strong as possible, even in places with very high energy, the field strength will still be distributed. For the boundaries of the black hole, this is a barrier with quite high energy, but particles may still go out.

Each black hole has a certain temperature, and the temperature is inversely proportional to the mass of the black hole. That is to say, the temperature of a large black hole is low and the evaporation is weak; the temperature of a small black hole is high and the evaporation is strong, similar to a violent explosion. It takes about 1x10^66 years to evaporate completely; a black hole with an asteroid mass will evaporate cleanly within 1x10^-21 seconds.

Okay, the above is an explanation of the black hole. The black hole tunnel we built with quantitative ions is this kind of transmission device that exceeds the speed of light. It selects the space of power from x matter, uses the blackspot force to generate infinite flow power, and achieves space operation...

Doctor, can we reach the Earth's twin galaxy?

This cannot be guessed, because last time we used artificial intelligence robots to carry spacecraft, and in the end we were unable to move for some reason, we could only project the silver alien galaxy that was 1,400 light years away, and we could not understand whether we had reached the Earth's twin galaxy.

What exactly is the universe? Why are there few galaxies in the solar system where the Earth is located? Are there really aliens?...The answer is in that star light that continues to explain to you
Chapter completed!