A serious problem in the research process of gravitational fields is the lack of theory.
The research team is not without relevant theories. They have discovered the key to gravitational field technology, which is the space s-wave. At the same time, they also know that the same direction current occurs in the underlying structure.
But the two cannot be linked together.
Is the structure of the co-directional current a key part of creating S, or does the co-directional current create the S wave, or is there no direct correlation between the S wave and the co-directional current, and is it two functions in the gravitational field technology?
etc.
This question cannot be answered.
Just like the previous research on superconductivity, there were many related experiments and theories, but the scientific community has spent decades failing to link the experiments and theories together to form a systematic system.
It was not until the emergence of semi-topological structures that the theory of superconductivity was perfected, allowing superconducting technology to develop rapidly.
This is the current experiment and theory of gravitational field technology. What can be determined is that the S wave is directly related to the gravitational field, and the underlying homogeneous current structure is directly related to the gravitational field technology.
There is no correlation between the two. The codirectional current is a purely structural correlation discovery, while the S wave is a special wave discovered through experiments and can also be included in the theoretical ranks.
Isotropic currents themselves are more difficult to study because they are essentially the same.
Although the underlying structure of the gravitational field equipment is very complex, in fact, the co-directional current is just a series of lines in the structure, just like two wires connected to a resistor. After giving the current power support, the current power passing through the two wires is
Completely consistent.
Macroscopically, there is no difference between two lines in the same direction at all. The materials, power, current, intensity, voltage and other data of the lines are exactly the same, and they are just placed in different positions of the series lines.
If analyzed from a microscopic perspective, it can only be seen as a current line flowing through one line and then flowing through a second line, or the potential generated by the voltage first acts as a line and then acts on the second line.
Because the speed of electric current is the speed of light, no difference can be found experimentally.
Now Helen has put forward a new view, believing that S wave is composed of the superposition of two different waves. She was not confident when she explained it, because the content of the explanation was only a possibility.
At the same time, there is another possibility, that is, the current in the same direction releases the same wave, and the gravitational field is produced by the superposition of two identical waves.
The work that Helen, Chen Mengmeng, Ding Zhiqiang and Huang Xing did together was to properly rule out the possibility of the latter.
This is mainly because the latter has more things that cannot be explained. Of course, the former also has many things that cannot be explained, but it is just less than the latter.
However, Wang Hao directly recognized Helen's statement, because he received the correct feedback, so he directly ruled out the possibility of superposition of the same waves.
"So there are two different waves, which can be defined as s-wave and s-wave. The two are superimposed with a certain intensity to form a special s-wave."
Wang Hao said, "This also solves another problem. We have discovered that the S wave is a weak wave, but it has extremely strong penetrating power."
"This would have been incredible."
"Generally speaking, the penetrating power is directly related to the intensity of the wave. Waves with higher frequency will have stronger penetrating power. S waves do not violate the rules."
"If it is formed by two different waves superimposed together, that explains why this phenomenon occurs."
Wang Hao's explanation made others nod involuntarily, and he immediately tried to create a new task--
【Task 4】
[Name: Technical Principles of Gravitational Field (Difficulty: S).]
[Inspiration value: 0.]
really!
Tasks can now be created!
Wang Hao looked at the task content on the system and couldn't help but smile. He couldn't create a task before. The reason was naturally that the conditions were seriously insufficient.
The conditions are sufficient now, but the research difficulty is still very high.
S-level research is very difficult to complete.
Fortunately, it is not S level difficulty. It is still very possible to complete S level, but it will take more energy and time.
Gravitational field technology is really important.
Wang Hao is also determined to complete relevant theoretical research so that he can continue to make breakthroughs in technology in the future.
He immediately established a research group.
This research requires experiments to complement theory, and participants include not only the theoretical team, but also the experimental team of the Antigravity Center and Shen Huiming's team responsible for measuring radiation waves.
At the first meeting of the establishment of the research team, Wang Hao assigned work tasks, "Academician He, Professor Qian, your team will cooperate with Professor Shen to conduct radiation testing. This is the most important task."
As he spoke, he walked to the whiteboard, took a pen and drew two parallel line segments, and painted a small area in the middle into a shadow shape.
Then he turned his head and said, "These two lines are currents in the same direction, and the middle is the gravitational field."
"We believe that current in the same direction can create s-waves because the two lines create s and s-waves respectively, and the s and s-waves are superimposed at a certain frequency to form s-waves."
"So the focus of the experiment on measuring radiation waves is to measure these two waves."
"Of course I know very well that this is very difficult."
"It is currently impossible to directly measure the S wave. It can only be accomplished through a large amount of data comparison and analysis. However, we still need measured data, and analysis can only be carried out on the basis of a lot of data."
"So the measurement work is mainly divided into three parts. One is the measurement of S-waves in the gravitational field, and the other is the measurement around the two current lines in the same direction."
"We need a lot of data. Two current lines in the same direction also need data under various powers, including data when a gravitational field cannot be created."
"This data will help us conduct better analysis."
After Wang Hao finished speaking, He Yi immediately nodded and said, "Leave this work to us and we will ensure it is completed."
This chapter is not finished yet, please click on the next page to continue reading the exciting content! Shen Huiming also said, "No problem."
Wang Hao nodded after hearing this and didn't pay too much attention. In fact, he didn't think the experimental group could really measure anything.
Now even S-waves need to be discovered through data analysis. S and S-waves are just a concept. It is too difficult to discover them simply through experimental measurement.
For the time being, they can only place their hope in subsequent data analysis.
The experimental measurement is not only for the situation where the gravitational field is created, but also for the radiation wave situation around the co-directional current line when the power is reduced and the gravitational field is not created.
From the perspective of normal experimental logic, even if s-wave and s-wave cannot be superimposed to form s-wave, when the power is reduced, the two waves still exist, but the intensity is reduced.
"Perhaps, the superposition of s-wave and s-wave is just a very subtle coincidence."
"The two can only come together at a very specific intensity."
This is an analysis based on experimental conditions.
The power of the gravitational field device is fixed. Whether the current intensity is increased or decreased, the gravitational field will disappear instantly.
This is also a very troublesome result. Because of this, it is said that the superposition of the two waves is a subtle coincidence.
After Wang Hao explained the work of the experimental group, he also formulated the research direction of the theoretical group. Their main directions were two.
One is to study the mathematical expression of structured s-waves.
Without sufficient experimental findings, the mathematical expression of s-wave will definitely not be completed, and they can only discuss it slowly.
Wang Hao hopes to increase the inspiration value during the research process.
The second direction is to study the properties of β-CWY-137 materials. It is best to find out the relationship between β-CWY-137 materials and S waves.
There are too many in this direction.
They can start from the semi-topological structure of β-CWY-137, or they can study the element composition, material properties, and even the manufacturing process, etc.
Helen pointed this out immediately, "Mr. Wang, there are too many starting points for the β-CWY-137 material. We can't determine where to start research at all. All directions may be related."
Wang Hao nodded and confirmed Helen's statement, then turned his head and asked, "What do you think?"
Everyone looked at each other and no one spoke.
Wang Hao looked over from left to right, then nodded with satisfaction and said, "Then let's start with the characteristics of the beta element and the topological structure of the material, and ignore the rest for now."
He made a decision.
At the same time, Wang Hao also felt a little strange because his decision was based on correct feedback.
result……
Everyone seemed to have doubts on their faces.
far right.
Huang Xing lowered his head and said depressedly, "I was thinking the same thing just now. Sure enough, Wang Hao can think of it too."
"I am the one holding back the research team..."
To be continued...