Genius of the Rules-Style System
Chapter 693 Ground experiment!
If you want to understand the scientific principles of particle and macromolecule transmission in experiments, you must have enough information support to help improve the theory and deduce the principles of the experiment.
Unfortunately, they don't have enough information at the moment.
A lot of information is on the Mars-1 spacecraft.
The explosion that occurred on the spacecraft left a lot of powder behind. Powder is an important piece of information. It can be used to study the proportions of particles and molecules, as well as the intensity of the explosion, and then infer a lot of things.
It is impossible for the Mars-1 spacecraft to return to Earth in a short time. The experimental plan is for the spacecraft to return to Earth in about ten months.
This is already the fastest speed.
Even if it takes ten months or nearly 300 days to return to Earth, it is very astonishing to say the least. This is not the first time that humans have detected Jupiter. They have also launched probes to observe Jupiter in the past, and some have passed by Jupiter from a distance. Some enter the orbit of Jupiter for observation.
Even just passing by Jupiter from a distance took more than 600 days. Moreover, the technical difficulty required to enter Jupiter's orbit was very high. Only one detector completed this task, and the cumulative time exceeded 2,000 days. .
So far, no probe has been able to return from Jupiter, but considering the distance from Jupiter to Mars and the technical difficulties involved, it is unimaginable to do so in just ten months.
Mars-1 can return to Earth in ten months thanks to unlimited solar power transmission technology.
This technology can provide a steady stream of power to the Mars-1 spacecraft. The thrusters carried by the spacecraft are not very effective and can only provide slow acceleration. However, because the time is long enough, it can also allow the spacecraft to reach a quite astonishing speed. Only then can we shorten the time it takes to return to Earth from Jupiter.
But in any case, it is certainly not possible to study the explosion on the Mars-1 spacecraft in a short period of time. The only available information is the detection of closed connection terminals on the ground, that is, the detection of materials that remain after transmission.
Regardless of whether it is a metal substance or other substance, more than half of the initial detection is lost, and the stable light energy directly obtains the detection result, and the instantaneous energy transmission efficiency exceeds 91%.
soon.
The test has detailed results.
The mass loss of all materials in a closed space, including air, is around 52.37%.
The theory team did not think this data was important.
Zhao Yi concluded, "Now we have two results. One is that the energy transmission efficiency is greatly increased, which means that the research direction of the void hypothesis is correct."
The reason why the research direction of the hole hypothesis is correct, rather than the definite existence of holes, is because the existence of holes cannot be proven in a single time.
The gap hypothesis is still a hypothesis, it just uses the existence of the hypothesis gap, and there is no conflict between the research direction and the experimental results.
Research in this direction can continue until experiments prove the existence or non-existence of holes.
Zhao Yi continued, "The mass loss in the closed space represents the transmission of particles and macromolecules in an instant. The particles and macromolecules are divided and squeezed into the spaceless zone in the spacecraft."
"But I think the mass loss value is of little significance, because an explosion occurred midway through the experiment, the transmission equipment in the spacecraft was damaged, and the experiment could not be completed."
"But I can be sure of one thing, macromolecular teleportation occurred in the experiment."
Others nodded.
The reason is very simple. Assuming that the mass loss is all due to particle transmission, the nuclear fusion reaction occurring on the spacecraft at the other end cannot be so small.
When so much mass is turned into a single particle, the nuclear fusion reaction that breaks out in another section will be very amazing. Even if the melting point of the metal material at the bottom of the platform is above 10,000 degrees Celsius, it will definitely be melted instantly, and then the entire spacecraft will swallowed.
Now that the main equipment of the Mars-1 spacecraft has not failed and is still on its way back to Earth, it means that the intensity of the explosion was very small, and many atoms and macromolecules must have been transported.
These macromolecules and atoms do not undergo particle splitting, and naturally will not participate in nuclear reactions.
"But the question now is, why does the transmission of particles, atoms, and macromolecules occur?"
Zhao Yi raised a question.
Next, several people in the theory team are studying this issue. The simplest and most direct way is to compare the two experiments, because nuclear fusion explosions occurred both times.
During the first transmission in a compressed space in a laboratory, with a vacuum environment at the other end, a small nuclear explosion occurred, but the terminal mass loss was very small, which means that most of what happened was particle transmission.
This time the interruption was a closed ordinary space, and the other end of the link was an area where no space existed. As a result, particles, atoms, and macromolecules were transmitted, and an explosion occurred to a certain extent.
The second time the material was transferred more, but the explosion process was relatively smaller, which means that most of the transferred materials were atoms and macromolecules.
After studying for several days, everyone had their own opinions on the experiment. Edward Witten believed that "there is a high-latitude space that serves as a transfer station for the transmission of energy and matter." "So particles must be energized. Only then can teleportation occur.”
"Now that teleportation has appeared, it proves that particles are squeezed by holes in a special state under a special environment, and are 'energized'."
Edward Witten integrated some relevant spatial theories of spatial connection technology into M theory, because there is a high-dimensional space that serves as a transfer station for spatial connection technology.
According to his theory, whether it is energy or particles, if you want to complete space transmission, you must first be transported to a high-dimensional space, and then be squeezed out by the high-dimensional space and return to the other end of the link.
This view is consistent with basic space mathematics, and there is no way to refute it.
In fact, the main reason is the lack of basic space theory, and the definite space mathematics is very limited. With this, many kinds of explanations of experimental phenomena that are consistent with the basic theory can be made.
In fact, it is like the original universe theory. The big bang theory is just one of them, and string theory is certainly one of them.
None of these are proven, and they all conform to the basic theoretical framework. No one can be 100% sure that the theory is wrong.
Qiu Chengwen does not believe in string theory. The only thing he believes in is the conservation of energy.
Most of his research is based on the conservation of energy, and he raised a question, "Address transmission will definitely consume a lot of energy, much more than energy transmission, so what is the source of energy?"
"I think that, at the most fundamental level, maybe matter and energy are homogeneous."
This statement is consistent with the boundary theory of particles.
Zhao Yi believes that space’s rejection of matter originates from its rejection of mass points, and the definition of mass points, two to the Nth power, is nothing more than a digital representation of energy points.
Qiu Chengwen believed that matter and energy are homogeneous to explain the particle transmission phenomenon that occurred in the experiment.
This is the same as water hitting a stone.
When a stone is dropped into the river, it will not flow with the river, but when the river is very fast, it may cause the stone to roll.
Stone is matter.
Things that can flow with the river water or even dissolve in the river water can be compared to energy.
It can be seen from this example that energy and matter may be of the same substance, but their ‘quality’ levels are different, and thus they exhibit different properties.
Zhao Yi is more inclined to Edward Witten's point of view, not that he agrees with his idea of a high-dimensional transfer station, but that the particles are energized during the experiment.
This is mainly because there are some basic contradictions in Qiu Chengwen's statement.
For example, energy issues.
Qiu Chengwen's statement will definitely involve the intelligence equation, and the mass-energy equation will involve the energy source.
Obviously, the energy provided in the experiment is not enough for the particles to complete the transmission.
Of course.
This does not completely negate Qiu Chengwen's statement, because the transmission of particles does not necessarily consume energy.
For example, on Earth, when an object moves to another place with the same altitude, there is no change relative to the entire Earth.
There is no change in potential energy, no change in mass, and no change in overall energy.
However, obviously moving an object to another place requires energy.
The same is true for the current transfer of matter. Compared to the entire universe, if a matter exists in this place and that place, the energy of the universe does not change.
Therefore, particle transmission does not necessarily consume energy.
In short, in the absence of basic theory, every statement has a certain truth and cannot be directly denied.
But what is certain is that Qiu Chengwen's statement is very dangerous, because his explanation of the experiment may cause some uncontrollable situations in the experiment.
According to Edward Witten, it is relatively safe.
If only particles are energized, then there will be no uncontrollable accidents and the impact of the experiment will be limited to a certain extent.
What they need to discuss now is how dangerous the experiment is.
They are doing an assessment.
Only if the risk assessment is passed can you apply to conduct experiments on the ground.
This is very important to the theory team. No one among them wants to wait ten months. You think there is no point in waiting ten months, because the residue on the Mars-1 spacecraft does not necessarily indicate anything.
If experiments can be done on the ground, a large amount of useful information can be obtained, and only then can the theory be improved.
When conducting experiments on the ground, the risks must be re-evaluated.
——
It is difficult to prepare a risk assessment report. No one can guarantee that there will be absolutely no uncontrollable accidents during the experiment. Therefore, we can only try to ensure safety as much as possible.
Zhao Yi is doing this. He is not sure whether there will be uncontrollable accidents during the experiment, but one thing is certain--
Anti-energy barriers provide security.
The biggest problem during the experiment is that the equipment that activates the anti-energy barrier is inside the anti-energy barrier. Once a violent explosion or other unexpected danger occurs inside, the equipment will be damaged and the anti-energy barrier will no longer be maintained.
So what Zhao Yi is considering is to build an experimental environment that is completely surrounded by anti-energy barriers, and at the same time, the equipment that activates the anti-energy barriers is outside.
As long as the experiment is completely placed within the anti-energy barrier and does not affect the equipment that activates the anti-energy barrier, safety issues can be guaranteed.
"How to do it?"
Zhao Yi simply thought about it and found a way.
The current anti-energy barrier technology is far from mature. The use of anti-energy barriers mostly relies on anti-gravity systems. It is different when it comes to Zhao Yi. He understands the principles of anti-energy barriers very well and can design special releases. Anti-energy barrier equipment.
This is how nuclear fusion devices are designed.
The anti-energy barrier continuously maintained inside the nuclear fusion device is not a complete circle, but has certain gaps, and it is the gaps that allow heat to be transferred out.
Now Zhao Yi is planning to design an anti-energy barrier that can be maintained on one side, but his design does not have only one side of the anti-energy barrier, but a short passage behind it.
The entire anti-energy barrier is in the form of an irregular wall in front and connected by narrow lines at the back.
The reason for this design is that it is impossible to design a single-sided anti-energy barrier.
The topological form of the anti-energy barrier must be a circle, either a flat circle or a three-dimensional circle.
So there must be a connection behind the 'wall'.
With such an anti-energy barrier designed, a few can be used to surround a complete space, and at the same time, the equipment that activates the anti-energy barrier can be located outside the space.
The internal design of this new anti-energy barrier excitation device is relatively complex.
It took Zhao Yi more than three days to design it. He thought it took a long time because just an anti-energy barrier excitation device required so much time internally. In the same time, he could even design two Functional spaceship.
After completing the design of the single-sided anti-energy barrier device, Zhao Yi directly submitted an application report for the experiment, stating that the material transfer experiment would be conducted on the ground.
At the same time, a new risk assessment report was submitted.
The latter was submitted together by the theory team. They believed that the danger of material transfer would be limited to small nuclear fusion explosions. As long as it is in a large open area and certain safety measures are in place, it will not cause too much danger. .
Because of the experience of an experiment, people who participated in the experiment also knew the scope of the explosion. Even the Mars-1 spacecraft had no problems, and the report review was quickly passed.
Then there is the application for experimental projects.
The experimental project application submitted by Zhao Yi requested a funding of two billion yuan, half of which would be used to create a special anti-energy daily device.
The application report soon arrived in the hands of Minister Liu of the Science and Technology Department. Minister Liu looked at the report and directly gave his approval, and then continued to submit it.
After everything was done, Minister Liu finally realized, "Why did you just approve it directly?"
"This is a big project worth two billion!"
He immediately smiled bitterly and said, "It seems that he is already used to it. As long as the projects applied for by Academician Zhao are in units of 'billion', two billion is just a small sum compared to the unit of tens of billions -"
"well!"
"Habits are really scary!"
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