Chapter 386: Rapid Research, Definition of Strength, Limit Values and Natural Constant e
Is there a magnetization reaction detected in the material above the device?"
"How can this be!"
"It's true, look at Wang Shanqing, that guy is so happy!" "I'll go take a look!"
A group of people surrounded Wang Shanqing and listened to him talk about the test results of magnetization reaction.
For the magnetization reaction detection of the annihilation force field experiment, the material used is high-purity iron metal, and the carbon contained in the material is less than 0.01%.
Countless experiments in the past have proven that iron has the highest magnetization reaction value, and the only first-order material discovered is first-order iron.
Wang Shanqing said excitedly, "We just did a test. The test time was thirty-seven seconds after the material left the designated area, and the value obtained was 0.61T."
"I didn't expect that there was actually a magnetization reaction!" "What does this mean?"
He asked one last question.
Shock was written on the faces of the people around him. They looked at each other, not knowing how to answer.
In fact, they all know what it means to detect magnetization reaction.
That means that there is likely to be a weak strong annihilation force field in the area above the device, similar to the superposition force field that initially detected this reaction.
But, how is it possible?
Most people who participated in the experiment believed that they were studying DC anti-gravity technology. Even if the experiment was successful, what they created was an anti-gravity field. A strong annihilation force field?
unimaginable!
The problem is that the internal material layout of the equipment is demonstrated and studied by everyone together, and each entry group is involved, and they are each responsible for their own part of the demonstration.
Some opinions were adopted, others were not.
Until the beginning of the experiment, they had not thought about the strong DC annihilation force. They confirmed that the magnetization reaction phenomenon was found above the equipment. Suddenly, there was a feeling that we participated in the research, but in the end we did not know what we were studying.
"Isn't a strong annihilation force field created by superimposing force fields?" Xiang Qiansheng shouted in shock.
He spoke out what others were thinking.
Everyone immediately looked at Wang Hao, hoping to hear Wang Hao's explanation. Wang Hao smiled softly and said, "We spent several years in the past to develop a method of creating anti-gravity and strong annihilation force fields, but
The study of the direction of the annihilation force field is completely new, and it is not necessarily the only method."
"Now we just found another way, maybe there are other ways."
"From a theoretical basis, under normal circumstances, strong and weak annihilation force fields are interdependent, but the way of dependence is not fixed."
"We still need more research in this area..." Others nodded thoughtfully.
Thinking from a completely new physical perspective, the research on annihilation force fields only lasts a few years, but it has just begun.
Originally, the technology they mastered could create strong and weak annihilation force fields, but there was not necessarily only one method.
Now there is just a new method.
When I thought about it, I suddenly felt enlightened. Others were also excited and looking forward to it. They couldn't wait to get into the testing work.
In situ.
Some researchers don't need to participate in the experiment, they just stand and watch from a distance. That's the case with Xue Bing.
He is the representative of the aviation group assigned to the annihilation force field team, and will provide some materials and manufacturing assistance for research.
At this time, Xue Bing stared at the position above the equipment without moving.
The scene in front of him was beyond his understanding. He participated in the whole process of the internal layout demonstration of the equipment, and he could only understand the part of his team's work. Many suggestions that he thought were helpful were rejected.
result....
Now a region with properties similar to superimposed force fields has been directly created, which can be called a 'weakened strong annihilation force field'.
how can that be possible?
Xue Bing felt like he was dreaming, even though he had been there since the beginning
Even though he was involved in it, he didn't understand the reason for success, and he didn't even think about the outcome.
Liu Yunli walked over, patted Xue Bing on the shoulder, and said with a smile, "How is it? Are you convinced? I told you a long time ago, you just came here, and what you need to learn now is to trust Academician Wang Hao."
"to be honest..."
He said and sighed, "I also want to fully understand the principle, why the experiment is successful? Why does this phenomenon happen, but it is difficult!"
"Annihilation physics is too complicated. We can only think based on the results combined with the underlying logic. However, experimental physics generally uses experiments to verify theories, and the order is reversed...
"Do you know why?"
When Xue Bing heard Liu Yunli's statement, he felt a sense of enlightenment.
He just felt that the process of participating in the research was strange, and it was indeed because the order was reversed, so he immediately asked, "Why?"
Liu Yunli pointed to his head, "IQ!"
"If there were no Academician Wang Hao, and we had to conduct experiments using conventional methods, it would probably take a few months, a year? Or even longer to get to this point! Maybe we would give up halfway through the research."
"Under the leadership of Academician Wang Hao, we quickly made discoveries, but our minds couldn't keep up with it and couldn't understand it at all..."
"That's why I said, just listen to Academician Wang Hao. Ordinary people like us, if we want to keep up with Academician Wang Hao's pace... it's hard to reach the sky!"
Xue Bing took a deep breath after hearing this.
If it were any other person, he would definitely not be able to accept it, but if it was Wang Hao, it would feel natural.
Indeed! That is Academician Wang Hao!
Isn't it normal for my IQ to be lower than that of Academician Wang Hao?...
The research is not about discovering new physical phenomena, but it is a new technology for creating annihilation force fields, and there is a lot that can be explored.
Everyone in the experimental group is very motivated.
In the technology of creating annihilation force fields, the most important thing is the material arrangement design, which contains knowledge that echoes the microscopic theory.
In terms of the technology for creating anti-gravity fields before, the experimental team already had a complete system.
For example, come up with a brand new superconducting material.
As long as it is analyzed from the perspective of elemental composition and external properties, the experimental team can come up with a nested plan that can at least exert more than 70% of the effect of the material in creating an anti-gravity field.
This chapter is not finished yet, please click on the next page to continue reading the exciting content! It can create up to 50% of the field force, and a nested plan can create more than 35%.
Now that new technologies for creating annihilation force fields have been discovered, and even weakened strong annihilation force fields have been directly discovered, the original system has lost its effect. Many things need to be analyzed and studied from the very beginning, and the rules can be gradually found and improved step by step.
technology, and the intensity of the field created.
After the first experiment, the experimental team held a summary meeting.
Many people in research find it incredible that a strong annihilation force field can be directly created, and they start talking about fundamental issues. The biggest question is 'Where is the antigravity field?
The previous technology was to create an anti-gravity field, with a single layer of strong annihilation force field attached to the surface. Only then could the superposition of force fields be used to create a truly strong annihilation force field.
Now it is directly creating a strong annihilation field. What about the anti-gravity field?
Only Wang Hao can explain this problem.
He said, "The two sites are interdependent, and the anti-gravity effect definitely exists. Maybe it is attached to the surface like before, and it is too thin to show specific properties. It may also exist in other ways."
"What I found specifically in the experiment was that we had to increase the field strength."
Wang Hao talked about strengthening the field strength, but the next step he was concerned about was not to improve the design, but to find a request from the superior department to dispatch a mechanics research team.
His explanation was, "We have to do basic research."
"This is important!"--
Zhu Huacai is a physics professor at the National Defense University. He has been engaged in the research of basic mechanics for a long time and still has a lot of knowledge in the field.
Reputation.
This time, the superior department found Zhu Huacai and asked him if he was interested in joining the new research.
Zhu Huacai was a little confused after hearing this.
The superior department didn't even explain clearly what kind of research they were doing, so they wanted to directly transfer him to participate in the research. After thinking about it carefully, they realized that it must be confidential research.
Then do it!
Zhu Huacai didn't think so much. He arranged the course issues, briefly talked with his family, packed up his things and took a military vehicle over.
After nearly ten hours of driving, he knew exactly where he had arrived. The Annihilation Force Field Experimental Base!
Many people know that there is such an experimental base, belonging to the Antigravity Behavior Research Center of Xihai University, but they don't know where it is specifically.
Only now did Zhu Hua know it, and at the same time he felt a little uneasy and excited.
I am nervous because I have to participate in such a highly confidential research, but I am excited because I can participate in the world's top physics experimental research.
But what does the study of annihilation force fields have to do with basic mechanics? He soon knew.
Zhu Huacai met Wang Hao when he arrived at the base.
Wang Hao attached great importance to Zhu Huacai's arrival. After welcoming him into the office, he also seriously talked about the reason why he wanted to join the research, "We need to study the basic mechanical properties of the annihilation force field."
"Annihilation force field? Basic mechanical properties?" "Yes."
"Academician Wang, do you mean that the mechanical properties in the annihilation force field are different from those in the outside world?"
"certainly."
Wang Hao said with certainty, "Professor Zhu, you should know that in the anti-gravity field, the gravity received by objects in the field decreases."
"Many people think that when gravity decreases, it acts on the gravitational constant. In fact, it acts on the object itself, because the anti-gravity field does not isolate the earth's gravity, but makes the space squeezing force on the physics within the field smaller. Regardless of
Relative to anything, the gravitational force it receives will be reduced."
"So, to a certain extent, it can be considered that the mass of objects in the antigravity field becomes lighter."
Zhu Hua nodded after hearing this.
As a scholar who specializes in mechanics research, he naturally knows the controversy over the effect of anti-gravity fields on objects. From a theoretical basis, anti-gravity fields reduce the mass of objects, but the physics community generally believes that objects do not change their properties and their mass
It will not decrease.
This controversy continues to this day.
Now Wang Hao's statement is obviously in favor of mass reduction, which is of course not surprising. Most of the relevant theories were proposed by Wang Hao.
What Wang Hao wanted to say was not a controversial issue, but continued, "The basic mechanical research we need to do is similar to the case of anti-gravity fields. We need to do mechanical research within a strong annihilation force field."
"This is somewhat difficult, because when an object enters a strong annihilation force field, it will be affected by the magnetization effect, and the data measured by conventional experiments will also be greatly affected."
"So, Professor Zhu, I'm sorry to trouble you."
"I will ask others to cooperate with your work and tell you the specific effects of the force field on objects."
Wang Hao and Zhu Huacai talked in detail and then let others entertain them and visit the base.
The research on basic mechanics within the strong annihilation force field does not require Wang Hao's direct participation, but it is very, very important.
At the meeting on the second day, Zhu Huacai, whom Wang Hao introduced to everyone, also talked about the importance of basic mechanical research within the field force. "The strong annihilation force field created before was very thin and could not provide basic mechanical research."
environment of."
"So when we define the strength of the strong annihilation force field, the standard we use is the value of the magnetization reaction strength of iron."
"Now there are conditions."
"We can do basic mechanical experiments, just like the anti-gravity field, to define the strength of the strong annihilation force field."
"At the same time, it can be compared with the magnetization reaction effect of iron to analyze the relationship between the two."
Needless to say, everyone understands the meaning.
It is true that I have never done anything in a strong annihilation force field before.
We need to learn the conditions for the experiment because the strong annihilation force field is only a thin layer and there is no space required for the experiment.
It's different now.
They have created a large-scale magnetization field (a weak strong annihilation force field), and can do some basic experiments in it to measure the strength.
The specific measurement method is also very simple, just like anti-gravity can make objects lose weight, and strong annihilation force fields can make objects gain weight.
The difficulty of this experiment is how to eliminate the interference of the magnetization reaction.
This chapter is not finished yet, please click on the next page to continue reading the exciting content! With Zhu Huacai, who majored in basic mechanics, and the cooperation of the experimental team, the results of the experiment were soon available, and they measured the newly created force field.
"The strength value is 1.34!"
"For the corresponding pure iron material, the magnetization intensity detected after half a minute is 0.62T." "From this, it can be defined that the intensity of the annihilation force field we created is 1.34."
The strength of the annihilation force field is based on conventional standards, and the baseline value is 1'. The strength values of the antigravity field (weak annihilation force field) are all less than '1.
For example, the strength value of an anti-gravity field that reduces gravity by 90% is '0.1'.
The anti-gravity field and the strong annihilation force field have a unified strength definition standard, except that the smaller the value of the anti-gravity field, the higher the intensity, while the higher the value of the strong annihilation force field, the higher the intensity.
Next, research on new technologies will continue.
After continuous summarization and research meetings, Wang Hao also identified three key points of the design, one is the Z-shaped distortion, the other is the overall polygonal layout below, and the last is the design of the strong pressure large nodes of the pipeline.
For the strong annihilation force field created, all three designs have "positive benefits".
He also discovered two "negative impact" designs, recorded them in detail and excluded them, and the next argument was to make changes to the design ideas based on "the design of positive benefits" to improve the strong annihilation created.
Force field strength.
Everyone in the experimental group is very motivated.
Wang Hao also devoted 100% of his energy to it, working day and night on demonstrations and research plans, which made the experimental research progress rapidly.
Two weeks later, the second experiment was greatly improved, and the strength of the strong annihilation force field created reached 2.58.
Another week passed, and the intensity of the third experiment reached 3.193.
The experimental situation this time is also very different. The color above the device can already be noticed to be somewhat dim.
Everyone knows what it represents.
"If the intensity is higher, it can annihilate the light, right?"
"It can be done now, otherwise it wouldn't be so obvious. It's just that the proportion of annihilation is small and day by day.
"So the intensity exceeds a limit?" "What is the limit?"
Wang Hao is also very interested in this.
In other words, the so-called limit value of annihilation energy is of great research value.
"We are not in a hurry to continue to increase the intensity. Let's make small adjustments first and study the boundary value issue." He made a decision.
It's easy to make small adjustments within the design.
In the following period, the experimental group continued to make adjustments while also measuring energy loss.
To put it simply, after creating the magnetizing field force, let the fixed energy light pass through the magnetizing field force to study the energy loss problem.
If energy loss can be detected, it will naturally prove to have the characteristics of annihilation energy.
They also obtained a series of data through continuous experiments-intensity 2.93, and detected the loss.
Strength 2.61, no loss detected. Strength 2.77, loss detected.
Strength 2.68 Hurry up, no loss detected...this is the ultimate number.
Even if the design structure was adjusted, it would be difficult to accurately control the intensity of the magnetizing field, so the experiment was simply stopped.
Wang Hao studied the experimental data carefully and suddenly thought of a special number, "The limit value is between 2.68 and 2.77..."