Rule department scholar

If you can earn more money while doing your job, why not do it?

Therefore, Liu Jiankun is very positive about the establishment of a new company, because the new company will definitely be a subsidiary of Aviation Group, a company that can go public on its own, and is very hopeful to stand at the top of the space exploration industry. The future can be said to be limitless.

Such a company is the best opportunity to invest when it is still in planning.

Zhao Yi didn't pay any more attention. He just had to wait for the news. Only when there was new progress would he be required to do things.

The most important work now is to improve the analysis of Z-wave and space by relying on the data conclusions obtained from experiments.

Spatial resolution is at the heart of everything.

Through the study of space barrier, space cover, space link and Z-wave, according to space analysis, a large part of it has been completed, and even the main core theory has almost formed a closed loop.

Of course.

This part of theory is not necessarily the whole of space, but most of the relationship between the outside world and particles that can be perceived by science and reality has been analyzed.

The content added now complements the lack of the previous theory, but there is still a certain gap from the core theory to form a closed loop.

Zhao Yi discovered that because the main core theory did not form a closed loop, even the experiments just completed could not be explained clearly.

The most important point is the energy conservation of space and particles.

During the ultra-large Z-wave experiment, there is a problem of energy conservation.

In the study of space barrier (anti-gravity), it is found that space will absorb energy without any energy.

Zhao Yi's understanding is that space absorbs energy and expands, and when it is reflected in the universe, the edge of the universe is constantly expanding.

Z-wave energy is space reverse energy.

Space reverse energy is the reverse energy that is contrary to the energy absorbed by space. To be precise, in the large-scale Z-wave experiment, the Z-wave energy is not absorbed by space, but simply reacts with space and causes space compression. As a result, the impact of space compression on matter, whether it is the magnetic field formed by the matter, the burst energy of the plasma state matter, or the direct compression of matter, is the impact of space compression.

Space compression, reflected in the universe, means that the space of the universe is directly reduced.

It's like taking a spoonful of water from the sea. A spoonful of water is too little compared to the sea, and it will hardly cause any impact, but in fact, the seawater is indeed missing a part, and this part of the seawater, There is also quality.

Seawater has mass, and space can be understood as energy.

The space expands due to the absorption of energy, so the disappearing space should theoretically be transformed into energy.

The compression of matter does not increase the mass, it seems to be the compression of physical properties, but it is only at the particle level.

According to the law of conservation of mass and energy, the energy of matter does not increase, but because of the radiation and heat generated in the process, a small part of the mass will be lost, which means that there is a loss of energy.

So where did the energy go during the reaction?

This is where the problem lies.

The energy seemed to disappear out of nowhere, with no explanation at all.

Zhao Yi thought about many possibilities, such as transforming the compressed space into pure energy, or into a magnetic field, but they were all denied in the end.

The magnetic field is only the form of particle resistance to space compression, and the space compression and material reaction, the heat, radiation, etc., can be detected, and these only occupy a very small part of the reaction energy.

At this time, the mass-energy conservation seems to be invalid.

Zhao Yi is not sure whether the conservation of mass-energy is completely correct, but he is extremely sure that energy must be conserved.

Energy is the transit station where particles and space fight each other.

Space can be converted into energy, and particles can also be converted into energy. It is uncertain whether mass energy is absolutely conserved, but overall energy must be conserved, and energy cannot disappear out of thin air.

Research, once again stuck in a bottleneck.

However, Zhao Yi is not in a hurry to solve this problem. When exploring a new field, you will definitely encounter various problems. In the process of space analysis, you will also encounter bottlenecks one by one. If you want to complete the space analysis in one go, is it right? possible.

Zhao Yi simply started technical work, which is to study the relationship between Z-wave intensity, coverage, magnetic field, particle mass-energy, and space compression ratio based on experimental data.

This part of the content is very complicated, because there are too many variable factors involved, even if there is experimental data, it is difficult to complete it at one time, and for the time being, it can only be expressed in a columnar way.

Then for each experiment, the data can also be replaced to make a certain range of estimation.

For example, before the experiment started, Zhao Yi’s estimate of the space compression ratio was between 50-150 times, and he was still a little uncertain. Through this data and another experiment, the estimated ratio can be reduced to less than twenty range.

In the process of conducting technical research on related parameters, Zhao Yi also did another technical work, which is the impact of space compression ratio on particles.

In the experiment, a very amazing discovery was that after being covered by high-intensity Z waves, different substances were compressed at different rates. In addition, the animals did not die immediately.

This appears to be the opposite experimental result.

If the compression ratios of different substances are different, then the animals will definitely die immediately, because the structure of the organism is too complicated, and the compression ratios of different substances are different, theoretically it will directly disintegrate the organism, because the organism cannot be regarded as a kind matter, but as a collection of matter.

In fact, it is different when considered at the particle level.

If space compression targets particles, neutrons, and atoms that do not pass through, and the compression ratio is the same, it can explain why living things do not die immediately, but shrink in proportion.

Matter is composed of a large number of particles, and there will be gaps between the particles. Different compression ratios may be the changes in the particle gaps.

Then the research content is very simple, just to calculate the relationship between the space compression ratio and the compression strength of individual particles.

If it is extended to the extent that the matter is compressed, a large number of calculations and comparisons need to be carried out according to the experimental conclusions.

For example, how many times will the nickel-iron alloy be compressed when the space is compressed by fifty times?

How many times will it be compressed at 150x?

Relevant research is very, very important for mastering space compression technology and carrying out related applications.

This study requires detailed data.

Zhao Yi only checked the follow-up report of the experiment after researching here. The content of the report is very complicated, and all kinds of material data recorded have detailed test results.

Zhang Qican is Zhao Yi's assistant. He is responsible for summarizing the data and storing the useful parts separately for Zhao Yi.

Zhang Qican and Zhao Yi worked together. He got the important data, looked at it and immediately sent it to Zhao Yi, and then said in surprise, "Academician Zhao, look at this test data, it's really amazing!"

"What data?"

"I glanced at the test report of the metal material just now. The compressed nickel-iron alloy material has a melting point as high as [-] degrees Celsius!"

"That one kilogram of pure gold has a melting point of [-] degrees Celsius!"

"Even the melting point of titanium alloy exceeds two thousand degrees Celsius!"

Zhang Qican said in amazement.

Zhao Yi immediately checked the information and found that, as Zhang Qican said, the melting points of all metals had been greatly increased.

This increase is too exaggerated.

Although before the experiment started, Zhao Yi was sure that the compression of space would improve the performance of the material, and even improve the 'quality', but he did not expect that it would be exaggerated to such an extent.

For example, titanium alloys have different melting points depending on the composition, but they are generally between 150 degrees Celsius and 500 degrees Celsius.

Zhao Yi estimated that after being compressed, the melting point of the titanium alloy would exceed [-] degrees Celsius, but he did not expect it to exceed [-] degrees Celsius.

The melting point of pure gold has been raised to about 5800 degrees Celsius.

This data is really amazing.

At present, the metal with the highest melting point in the known range is 'tungsten', the melting point of 'tungsten' is 3380 degrees Celsius, and the alloy with the highest melting point is a metal carbide, especially the IVB, VB, VIB metal carbides, melting point They are all above 2900 degrees Celsius, and the melting points of hafnium carbide and tantalum carbide are around 3800 degrees Celsius, which is the highest melting point of all known substances.

Now the record is easily broken.

The melting point of the compressed 'gold' is raised to about 5800 degrees Celsius.

Nickel-iron alloy is even more exaggerated, soaring directly to 7300 degrees Celsius.

According to this data, if hafnium carbide and tantalum carbide are compressed, the melting point may be close to or even reach [-] degrees Celsius?

"wrong!"

"This data is not right!" Zhao Yi shook his head and shouted twice.

Zhang Qican immediately said, "Why don't I ask them again, should they test it again? I also think this data is too exaggerated."

"I didn't say that."

Zhao Yidao, "There should be no problem with the detection data. The possibility of making mistakes in this area is very small. Even if there are mistakes, it is impossible to make mistakes. What I mean is that under normal conditions, even if the gap between particles is narrowed, you cannot let The melting point has improved so much!"

Zhang Qican listened and nodded, and said, "Perhaps a test result would be helpful. No. 30, page [-], the properties of the compressed metal did not change after it was melted and re-solidified."

"Experiments tested several metals, including titanium alloys, aluminum alloys, carbon iron, and pure gold, and all came to the same conclusion."

Zhao Yi immediately found that page, frowning at the conclusion.

Before the experiment started, his judgment was that after the compressed metal was melted, the volume of recondensation would become larger, that is, the compression ratio would be weakened, because the molten metal would be 'remodeled', atoms and atoms The distance will become larger.

It's kind of like a compressed cookie.

Compressed biscuits soaked in water and then condensed again, it is impossible to return to the original state.

However, the conclusions detected by the experiment are completely different from the expectations. The compressed metal can also maintain the compressed state under normal conditions.

Zhao Yi thought of the animals and plants that exploded in the experiment, "Based on this conclusion, the explosion of animals and plants is based on the cell level, only because of the imbalance of pressure inside and outside the cells, rather than the smaller chemical structure level."

"I also come to the same conclusion." Zhang Qican nodded seriously, "The space compression did not break the chemical bonds, which means that the behavior of the atoms has not changed. Combined with the experimental results, I think that the effect of space compression occurs in the On particles such as protons and neutrons, and these particles are compressed and have an impact on the behavior, this is also a strange place, I can’t figure it out.”

He kept shaking his head as he spoke.

Zhao Yi also frowned tightly, but he was really excited in his heart. His analysis of space fell into a bottleneck, and it was reflected in the experiment that the problem of energy non-conservation.

Where does the energy generated by the disappearance of space go?

Now he has a definite answer, the energy must have acted on the particles, causing the internal properties of the particles to change, and what is certain is that the energy of the particles must have increased.

But at the same time, the properties displayed outside the particles have not changed in any way.

These properties include mass (strength of space squeeze), strong and weak forces in the nucleus, and the chemical properties exhibited by the combination of particles, etc.

Obviously.

If there is no change in mass, one thing can be determined—for the particles compressed by space, the law of conservation of mass-energy has no effect.

Chapter 595 The experiment of devouring the earth?

Now that where the energy goes has been determined, and the core of the particle has also been determined, because of the change in the behavior of the space squeeze, it is possible to conduct targeted research.

Zhao Yi first went to the laboratory for material testing. The laboratory is in a city 300 kilometers away. It is still a long way to make a trip.

He went to the laboratory in the morning.

This laboratory is responsible for testing compressed metal materials, and most of the subsequent data on the properties of metal materials are submitted by this laboratory.

The person in charge of the laboratory is Zhou Guixiang, everyone calls him Lao Zhou, and he is also an important material expert in the Z-wave experimental group.

When Zhao Yi walked into the laboratory, Zhou Guixiang was still busy doing tests. There was a small piece of gleaming metal on the laboratory table. The dazzling luster looked like a gold lacquer product, but it was indeed a piece. Pure gold is nothing but compressed pure gold.

"Academician Zhao, you are here!"

Zhou Guixiang saw Zhao Yi walking in, and immediately greeted him, "I'm so sorry, I just heard that you're coming, so I haven't made any preparations yet."

"It's ok."

Zhao Yi waved his hand indifferently. Most of his itinerary is kept secret. Even if he decides to go somewhere, he will only be notified when he arrives.

At this time, Zhao Yi looked at the piece of pure gold, and his eyes were shining.

This piece of gold weighs a whole kilogram. It is not the most expensive among the experimental materials, but it is the most dazzling among the experimental materials.

After all, it is pure gold!

Before the experiment began, when the gold nugget was not compressed, it was a long gold bar, relatively dull in color.

Now the color is so much more sparkly, it looks like a fake from the sidelines.

After being compressed by the space, the gold bar has shrunk by more than five times, only about the size of a little finger, and looks much more refined.

If you don't know, you may think it's a small piece of plastic, but in fact, it weighs more than a kilogram.

Zhao Yi picked it up with tissue paper, and immediately felt the weight. A small piece weighed one kilogram, and it was uncomfortable to hold in his hand.

But Zhao Yi still held it in his hand and kept looking at it.

Glittering bars of gold!

The market price of this small gold bar is as high as more than 20 RMB, which is still the price before the experiment started, and the price of the compressed gold bar has increased by a hundred times, which is definitely an underestimation.

Even if you don’t talk about the technological content, let’s not talk about it, the uniqueness in the world is just the sparkling color, even if you just cut a small piece, it can be sold as a treasure.

"Then wait a while and choose this gold bar."

Zhao Yi pondered, "Anyway, I must take some of the materials back. Put the gold bars next to it, and do research, it will be full of inspiration!"

"Yes, just do it!"

The way Zhao Yi looked at the gold bar became even more strange.