Genius of the Rules-Style System

Chapter 736 A sign of entering a new era!

Even if the detection equipment is very sophisticated, it is not easy to detect the instantaneous changes in the hole jump in the area where gravity and Z waves coincide.

The main reason is that the location of the detection equipment cannot be within the coverage of the Z-wave area, otherwise the hole jump acceleration effect generated by the Z-wave area will directly target the detection equipment itself instead of producing normal effects.

It is like the molecules in the air, which are within the coverage of the Z-wave area, are not affected by more gravity, but the molecules themselves are affected by the compression effect.

The area covered by the Z wave is a separate area, which can be regarded as isolated from other areas and has unique physical characteristics.

Then the detection equipment can only be placed at the edge of the Z-wave coverage area, which is the boundary between the area and the outside world.

In theory, the boundary line of the Z-wave coverage area will still be affected by the active jump of holes, but the extent of the impact is not great.

This is one reason testing is limited.

Another reason is that the active jumping of holes has very little impact on enhancing gravity. The instantaneous enhancement of gravity is only an incidental manifestation of holes becoming active. The activity of holes is mainly reflected in the compression of matter.

If there is material inside, it will be concentrated on the extrusion of the material instead of being reflected in the enhancement of gravity. However, nothing is perfect. The boundary between the Z wave area and the outside world will still have some collateral effects due to internal reactions.

This is the key to detection.

Obviously.

The experiment needs to be designed very carefully, especially the control of the Z-wave region, as well as the placement of gravity generating equipment and high-precision detection equipment, all need to be controlled very carefully to get the desired results.

When several factors are added together, you know that the experiment is not that simple.

When the experiment officially started, everyone stared at the values ​​of the detection equipment. The first experiment disappointed them. The values ​​of the detection equipment changed, but the change was very small. To be precise, it only changed 0.015.

This is in ‘mm’.

Such a small change is almost meaningless. Even if it is affected by the environment, such as light wind, it may cause larger changes in the value. Without considering the influence of air, the accuracy of the high-precision detection device Position, as well as vibrations caused by turning on other devices, can also cause slight changes in values.

After starting a Z wave, you need to wait for a while.

The experimental team immediately made slight adjustments to the balance position of the detection device, hoping to achieve a perfect balance with the edge of the Z-wave coverage area.

Perfection, of course, does not exist.

For experiments to produce results, a certain amount of luck is still required.

The second and third experiments failed one after another.

After seeing the third failure, many people felt very disappointed. They thought that the experimental design might be poor, and if the 'air pressure' test was used instead, the effect might be better.

However, Zhao Yi denied the 'air pressure' testing method, "Air pressure testing requires too long a time to prepare, and the results may not be possible."

"Now it is a direct physical test. I believe that there is no problem with the experiment itself. If it were on the moon or in space, we would have been able to get the results clearly."

What he was referring to was insufficient intensity.

To be precise, the Z wave is not strong enough and can only be compressed more than 300 times. The magnification is too small.

In an environment without the influence of air, the compression ratio produced by the same Z-wave power can easily reach tens, millions, or even tens of millions or hundreds of millions.

The compression ratio of the Z-wave region, without the influence of mass matter, will increase exponentially, both in terms of coverage area and compression ratio.

Zhao Yi's decision was to continue the experiment. He personally guided the placement of high-precision testing equipment and started to find the balance point.

After more than an hour of hard work, he finally found a position close to his ideal position.

Then, the experiment continues.

This is the fourth experiment of the day. Both the Z-wave device and the gravity generating device have been activated four times. The energy consumption is very staggering, and the loss even makes the energy supply insufficient.

When the experiment officially started, everyone looked at the numerical changes again.

Finally the value jumped.

Suddenly, someone exclaimed, "0.8!"

"It's really 0.8!"

"0.8, is it a big number? Pay attention to prove that Z-wave coverage can enhance instant gravity."

"Success!"

Many people exclaimed excitedly.

Zhao Yi was not surprised when he saw the results, because he knew that there must be no problem with the theory, and since he adjusted the equipment himself, he was still very confident in the experimental results.

The current change value has reached 0.8, which is enough to prove that the active jumping of holes will cause instantaneous changes in gravity. With the conclusion, we can follow the principle and study the exact relationship between the Z-wave compression ratio and the instantaneous changes in gravity.

According to the relationship between them, ultra-high-magnification Z-wave detection can be achieved.

This experiment was successful.

In fact, they also need more surprising experiments. Although they are conducting research, the purpose of their research is technology, not to prove anything.

They don't need to publish a paper or find clearer evidence.

Therefore, research can directly enter the technical stage. The way is to conduct research in space or lunar bases, rather than on the surface of the earth, because the environment full of air on the surface of the earth is not suitable for doing this research.

After the experiment was over, Zhao Yi held a summary meeting and then asked everyone to write reports.

Reporting on price increases and applying for research in outer space or lunar bases are the follow-up work. Superiors will make targeted allocations and cooperate with the support of some institutions to start a series of research and development.

When it is determined that there are no problems with the theory, technological breakthroughs are only a matter of time.

——

The experimental base has successively conquered two technologies: gravity generation and Z-wave detection, which can be said to be extremely surprising.

Both are important technologies for space exploration.

Up to now, space exploration-related technologies can be said to have been perfected, and it is difficult to make greater breakthroughs in the future.

In fact, Zhao Yi hopes to continue to make breakthroughs in the field of material transmission, but if he wants to continue to study material transmission, there seems to be something not enough on earth.

One is that the environmental impact factors are very large, and the other is that energy consumption and the scale of the experiment are very large.

Just doing simple research on material traditions is already an international cooperation project worth hundreds or hundreds of billions.

If we expand and continue the research, we will definitely need to expand the scale of the experiment to draw new conclusions, which will require greater investment, and the earth's surface is not suitable for long-term risky material transfer experiments.

Therefore, Zhao Yi is thinking about doing research and development in the future, and the road must be taken step by step. When space exploration enters a new stage, or the lunar base is expanded, a new alien planet base is established, etc., he will not continue to study material transmission experiments. Late.

He believes that the principle of material transmission involves a lot, and may be related to the ultimate principle of the universe. If you want to make a big breakthrough in related technologies, you may need to improve other technologies to have a little possibility.

Nowadays, it seems that the huge investment in research on material transmission is not worth the gain.

Because they have more important things - perfecting space exploration-related technologies, applying gravity generation technology and Z-wave detection technology to make the spacecraft a super ship that can truly sail between galaxies.

This is the most important.

With massive investment in research and development, gravity generating devices were quickly applied to spacecraft, including Xuanhuang, three new spacecraft of NASA, the Mars-1 spacecraft, a safety spacecraft of Yixing, three transport ships, and even They are two sightseeing boats, both equipped with gravity generating devices.

Next up is the all-important spaceship.

Installing a gravity generating device on a spacecraft is relatively complicated, because the ship is very large, and the equipment and technology it carries are very cutting-edge. It took nearly eight months to modify the interior of the spacecraft.

Over the course of eight months, Z-wave detection technology was also perfected to be able to directly detect the compression ratio that allows a spacecraft to span trillions of kilometers or more.

When the new Z-wave detection device is installed on a spacecraft, the spacecraft becomes a real spaceship and can freely shuttle between galaxies.

At a meeting about spacecraft exploring nearby galaxies, Zhao Yi took over the technical command. He announced clearly, "Our plan is to use eight jumps to reach the nearby Sagittarius within a week."

"This time's destination is Sagittarius RC-03, RC-03 and RD-01 planets."

"We will cross the galaxy to Sagittarius, explore the three planets, collect enough information, and if necessary, we will also perform landing operations."

“This will be the beginning of mankind’s conquest of the galaxy and the universe——”

"I firmly believe that we can successfully complete the task!"

Three days later.

Under the watchful eyes of everyone around the world, the spacecraft, carrying three thousand pioneers exploring the universe, slowly lifted off and quickly flew to the unknown world.

Everyone firmly believes that

This moment will become a sign of entering a new era!

PS: As expected, the new book will be released on the 5th. I will send a message then. Thank you everyone! !

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