Genius of the Rules-Style System

Chapter 595 The law of conservation of mass and energy no longer works!

Liu Jiankun is indeed very positive about the new company because he knows that the spaceship project will definitely pass.

Even if the spaceship plan fails, with the theory and technology of the Z-wave experiment, you can be sure that the next few decades will be an explosive period for space technology. The industries related to space exploration will definitely develop greatly, and the market size will definitely be It will expand explosively, so it is very important to stand at the top of the technical side.

There are reasons why Liu Jiankun is so active. One is because he is the general manager of the aviation group. The newly established company must be controlled by the state owner, and it is likely to be directly under the aviation group. The real profitable business of the aviation group is actually in In the secondary market, the income from the secondary market is directly related to shareholders, while other parts of the income need to be invested in various fields.

No matter how much that part of the income is, it has little to do with him personally.

Everyone has selfish motives.

Liu Jiankun is the general manager of the aviation group and a rich man. His net worth exceeds 2 billion yuan.

This level is definitely not comparable to that of Zhao Yi, but having accomplished more than twenty small goals, he is definitely among the richest people.

In fact, Liu Jiankun and Zhao Yi are similar. They both regard making money as an incidental matter. They mainly manage companies and do scientific research. It can be said that they are engaged in work that makes the country strong and contributes to science and technology, rather than being pure businessmen.

However, everyone hopes to have more wealth in their hands.

If you can make more money while doing your job, why not?

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

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

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

The most important work now is to rely on the data conclusions drawn from experiments to improve the analysis of Z waves and space.

Spatial analysis is at the heart of it all.

Through the research on space obstruction, space cover, space link and Z wave, based on the analysis of space, a large part has been completed, and even the main core theory has almost formed a closed loop.

Of course.

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

The content added now has completed the previous theoretical deficiencies, but there is still a certain gap between the core theory and the formation of a closed loop.

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

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

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

In the study of space barrier (anti-gravity), it was found that space absorbs energy without any interference.

Zhao Yi’s understanding is that space absorbs energy and expands, which is reflected in the universe, and the edges of the universe continue to expand.

Z wave energy is the reverse energy of space.

The reverse energy of space is the opposite energy that is contrary to the energy absorbed by space. To be precise, in large-scale Z-wave experiments, Z-wave energy is not absorbed by space, but simply reacts with space, causing space compression. As a result, space compression affects matter, whether it is the magnetic field formed by the matter, the burst energy of plasma matter, or the direct compression of matter, all are the effects of space compression.

The compression of space is reflected in the universe, which means that a part of the space in the universe is directly missing.

This is like taking away a spoonful of water from the sea. A spoonful of water is too small compared to the sea, and it will have almost no impact. But in fact, the seawater is indeed missing a part, and this missing part of the seawater, There is also quality.

There is mass in seawater, and space can be understood as energy.

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

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

According to the law of conservation of mass and energy, the energy of a substance does not increase. On the contrary, due to the radiation and heat generated during the process, a small part of the mass will be lost, which means that there is a loss of energy.

So where does the energy go during the reaction?

This is where the problem lies.

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

Zhao Yi thought about many possibilities, such as the compressed space being converted into pure energy, or into a magnetic field, but in the end they were all rejected one by one.

The magnetic field is just a manifestation of the resistance of particles to space compression, and the heat, radiation, etc. converted into space compression and material reaction can all be detected, and these only occupy a very small part of the reaction energy.

At this time, conservation of mass and energy seems to be invalid.

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

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

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

Research has once again hit a bottleneck.

However, Zhao Yi is not in a hurry to solve this problem. When exploring a new field, he will definitely encounter various problems. In the process of spatial analysis, he also encountered bottlenecks one after another. If he wants to complete the spatial analysis in one go, is it possible? It's possible.

Zhao Yi simply started technical work, which was to study the relationship between Z-wave intensity, coverage, magnetic field, particle mass and 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 once. For the time being, the only way to express it is through columnar expressions.

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

For example, before the experiment started, Zhao Yi's estimate of the space compression ratio was between 50 and 150 times, and it was still somewhat uncertain. With this data and further experiments, the estimated ratio can be reduced to within 20 times. 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.

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

This seems to be the opposite experimental result.

If different substances are compressed at different rates, then the animals will definitely die immediately, because the structure of the living body is too complex. Different substances are compressed at different rates. In theory, the living things will directly disintegrate, because the living things cannot be regarded as one kind. matter, but as a collection of matter.

In fact, it's different when you think about it at the particle level.

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

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

Then the research content is very simple, just calculating the relationship between the space compression ratio and the compression intensity of individual particles.

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

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

At one hundred and fifty times, how many times will it be compressed?

Relevant research is 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 his research reached this point. The content of the report was very complicated, and the various material data recorded had 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. Then he said in surprise, "Academician Zhao, look at this test data, it's really amazing!"

"What data?"

"I just glanced at the metal material test report. The compressed nickel-iron alloy material has a melting point as high as 7,300 degrees Celsius!"

"The melting point of that one-kilogram piece of pure gold reaches 5,800 degrees Celsius!"

"Even aluminum alloy has a melting point of over two thousand degrees Celsius!"

Zhang Qican said in amazement.

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

This improvement is too exaggerated.

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

For example, aluminum alloys have different melting points depending on their composition, but they are generally between 450 degrees Celsius and 600 degrees Celsius.

The melting point of the aluminum alloy used in the experiment is 480 degrees. Zhao Yi expected that after being compressed, the melting point would exceed 800 degrees Celsius, but he did not expect it to exceed 2,000 degrees Celsius.

The melting point of pure gold has increased 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. The alloy with the highest melting point is metal carbide, especially the IVB, VB and VIB group metal carbides. The melting point They are all above 2900 degrees Celsius. The melting points of hafnium carbide and tantalum carbide are around 3800 degrees Celsius, which are the highest melting points of all known substances.

Now the record has been easily broken.

After being compressed, the melting point of 'gold' has increased to about 5800 degrees Celsius.

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

Based on this data, if hafnium carbide and tantalum carbide are compressed, the melting point may be close to or even reach 20,000 degrees Celsius?

"wrong!"

"This data is wrong!" Zhao Yi shook his head and shouted twice.

Zhang Qican immediately said, "How about I ask them again if they should take the test again? I also think this data is too exaggerated."

"That's not what I meant."

Zhao Yidao said, "There should be no problem with the detection data. The possibility of errors in this regard is very small. Even if there are errors, it is impossible to make them all wrong. What I mean is that under normal conditions, even if the gap between particles shrinks, you cannot make it happen." There’s such a big improvement in the melting point!”

Zhang Qican nodded and said, "Perhaps a test conclusion will be helpful. On page 37, after the compressed metal melts and re-solidifies, its properties do not change."

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

Zhao Yi immediately found the page and frowned at the conclusion.

Before the experiment started, his judgment was that after the compressed metal melts, the re-condensation volume will become larger, that is, the compression ratio will be weakened, because the melted metal will be 'reshaped', and the atoms and the atoms before them will be 'reshaped'. The distance will increase.

It's kind of like a compressed cookie.

Even if the compressed biscuits are soaked in water and then re-condensed, they will not return to their original state.

However, the conclusions obtained from the experimental tests are completely different from what was expected. After being compressed, the metal can maintain its compressed state under normal circumstances.

Zhao Yi thought of the exploding animals and plants in the experiment. "Based on this conclusion, the explosion of animals and plants is based on the cellular level. It is simply due to the imbalance of pressure inside and outside the cell, not the smaller chemical structure level."

"I have the same conclusion." Zhang Qican nodded seriously. "Space compression did not break the chemical bonds, which means that the properties of the atoms have not changed. Combined with the experimental test results, I think that the effect of space compression occurs in On particles such as protons and neutrons, these particles are compressed and have an impact on their properties. This is also strange and 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 had reached a bottleneck, which reflected in the experiment the problem of non-conservation of energy.

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

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

But at the same time, the external behavior of the particles did not change.

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

Obviously.

With no change in mass, one thing can be determined - for particles compressed by space, the law of conservation of mass and energy no longer works.

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