Chapter 261 Amazing discovery! Wang Hao: We can create a flying car!
"Try?"
"Do not make jokes!"
"Rather than solving the Hodge conjecture, it is more practical to find an easier method."
This is Bill Carr's take.
Lin Bohan did not express his own opinion, but he also felt that solving the Hodge conjecture was too difficult and could not be achieved at all.
Wang Hao shook his head and said, "I just made a suggestion, and I don't want to solve the Hodge conjecture problem right away."
He felt a little helpless.
As for solving a mathematical problem involving one of the world's top conjectures, he is confident that he can complete it. It is only a matter of time.
After all, he can gather inspiration by setting up tasks.
But the difficulty level of Hodge's conjecture is too high. It must be an S+ level research, which is no worse than the NS equation problem. It cannot be completed in a short time. It takes one or two years to complete it. It is normal.
He just followed what Bill Carr said.
He actually doesn't have much interest in the Hodge conjecture. The Hodge conjecture is related to algebraic geometry and topology, and he has not done in-depth research on either of them. At the same time, it is hard to say how big his interest is.
What he now wants to solve is the expression problem of 'morphological gap', rather than having to solve the Hodge conjecture problem.
Just looking for a topological geometric expression, but spending a lot of time and energy to conquer the Hodge conjecture, it sounds no different from Yu Gong moving mountains.
Wang Hao asked, "Is it necessary to solve the Hodge conjecture? Also, if we solve the problem of the Hodge conjecture, we will definitely be able to solve the expression problem?"
Bill Carr thought seriously.
Lin Bohan frowned and said, "If you don't ask for too much rigor, you can find a way to express yourself."
Birkar retorted, "Mathematics, of course, must be rigorous."
"That's not necessarily the case."
After hearing Lin Bohan's words, Wang Hao felt his eyes light up. He said, "The expression problem I want to solve is to connect the application, that is, the mechanism of superconductivity, rather than to prove it."
"Can we assume that the Hodge conjecture is correct and continue research?"
Everything he said felt right.
Because what he wants to complete are applied problems and theoretical problems, rather than mathematical problems, some assumptions can be made in theoretical research.
As long as it helps in application, it doesn't matter if you make assumptions.
Bill Carr thought and nodded, "If you don't need to do rigorous mathematical proof, you can indeed do this, but Hodge's conjecture is to solve a type of problem of object expression, not mathematical logic."
Lin Bohan thought about it and said, "Assuming that all H objects can be constructed from geometric objects in a purely algebraic way, we can look for special cases among them and do extended research..."
"Specific algebraic varieties..."
They began to analyze it seriously.
Wang Hao's initial thought was that he had reached a dead end.
Mathematical research requires rigor, but their research is for the superconducting mechanism and the content of semi-topological microscopic forms, rather than to prove any mathematical theorem.
Naturally, there is no need for completely certain preconditions.
Hodge's conjecture is related to algebraic geometry and topology. The content is difficult for ordinary people to understand. What it says is that a class of objects (H objects) is created by applying calculus on clusters, which can be represented by a kind of algebra.
way, built from "objects that can be described algebraically".
A simple but inaccurate understanding is that 'a certain type of geometry related to topology can be described algebraically.
It is naturally very difficult to prove that solving a type of problem is very difficult, but assuming that the Hodge conjecture is true, we can study specific algebraic variety problems.
This bypasses the Hodge conjecture.
After actually getting involved in research, Wang Hao still found that the difficulty was very high. Even though the Hodge conjecture was bypassed, the problem was still there. They could only establish specific topological geometry to associate the expression of algebraic equations.
It is naturally not easy to expand slowly like this to cover the needs expressed in the 'gap'.
Wang Hao, Lin Bohan, and Bill Carr demonstrated for three days in a row. They each gained some results, but looking at the pitiful 2 points of inspiration value in the system task, he decided to do research slowly.
One bite won’t make you fat!
Now the research has just begun. If you want to complete the S-level difficulty task, inspiration is much more important than hard work.
Theoretical research may bring inspiration, and similarly, experimental research can also bring inspiration.
The superconducting materials experimental group has provided 'CA005, which is sufficient for large-scale experiments.
'CA005' prepared through laboratory means naturally costs a staggering amount of money. Fortunately, 'CA005' is a solid metal material and can be used continuously instead of being lost in one experiment.
Wang Hao specifically told Deng Huanshan to continue preparing, "The amount of materials is still not enough. We will need more materials in the future, and we must prepare more than three times."
"Three times?" Deng Huanshan grinned hard.
This part of the material was prepared through laboratory means, which cost more than 10,000 yuan, and almost all of the laboratory's manpower was engaged in material preparation.
Now we need to prepare more materials, which consumes a lot of time, energy and cost.
Deng Huanshan felt it was very luxurious, but when Wang Hao made a request, he could only agree.
After preparing the basic materials, Wang Hao went to the physics laboratory.
The current physics laboratory is completely different. A large-scale experimental center has been newly built with a lot of high-end equipment.
The name of the physics laboratory has also been changed to ‘Anti-Gravity Behavior Research Center’, which clearly states that they are doing research on anti-gravity and exchange of gravity.
On the day Wang Hao arrived, many people gathered in the laboratory, including the core personnel of the two research groups.
Among them are Liu Yunli, Xue Chang, Xiao Xinyu, Ruan Weiping, Xiang Qiansheng, He Yi, Yan Jing...
etc.
The two teams have a total of more than 20 researchers and associate researchers.
Many people came to the conference room early, and they were all discussing the upcoming research.
Liu Yunli and He Yi did not explain directly, but they still revealed some news, saying that the research meeting would be similar to the original one on improving the exchange of gravity strength.
Because of this, many people are looking forward to it very much.
Since the AC Gravity Experiment was officially made public, the AC Gravity Experiment Team has been very depressed. On the day the experiment was made public, they could be said to be at their peak, and then they declined rapidly, and later they were no longer noticed.
This is mainly because the general focus has been put on superconducting-related research, and they seem to have become the material property testing institution of the superconducting materials experimental group.
What was originally a high-level anti-gravity research turned out to be just an incidental testing agency. Everyone felt very depressed.
There is no way around this.
Anti-gravity is a bit too high-end in comparison. Even if we continue to study and improve it, it won't be too big. Ordinary improvements are really just numbers.
30%, 40%, what’s the difference?
In the end, none of them can be applied. To advance to the application level, the premise is the vigorous development of superconducting technology, which can support the provision of more practical materials.
Research in the field of superconductivity is different.
When there are materials that can be used in industry and have higher superconducting critical temperatures, electricity-related technologies can flourish.
Therefore, the research center will undoubtedly be inclined towards superconductivity and invest a large amount of funds into the field of superconductivity.
Wang Hao decided to restart the research on communication gravity, and they were naturally very excited.
"Professor Wang said that the intensity of communication gravity will be greatly improved...how big will it be?"
He Yi and Liu Yunli sat together and whispered expectantly.
Liu Yunli shook his head and said, "I don't know, maybe more than fifty
?」
"It's amazing to be over fifty!" He Yi said with some anticipation, "Lose half the weight!"
"Fifty!"
Liu Yunli was also looking forward to it, "Maybe it's higher?"
While the two were talking, Wang Hao walked into the conference room, and the room suddenly became quiet.
Wang Hao sat on the main seat, glanced at everyone, and said, "This time we are conducting research on communication dynamics for a new material."
"This new material is very interesting, CA005. You have already tested its material."
"The numbers are astonishing!"
In fact, during the testing, some people realized that the intensity of the AC gravity field created based on CAO05 was very high, but because it did not reach the 40% limit, they did not pay too much attention.
Now after hearing what Wang Hao said, they realized that this data was very unusual.
The next meeting is to do experimental demonstrations.
He Yi started, "We are still based on the existing superconducting material layout, but we need to make some improvements accordingly."
"Each material corresponds to a different equipment layout that is most suitable for it."
"Our original layout was for oxidized metal materials, but now it is for iron-based complex compounds. CA005 is composed of eight elements, with the number of atoms."
"in…"
He Yi talked a lot in succession, most of which were introductions to the materials.
Then everyone started to comment - "I think we can start from the width of the conductors in the normal position and add a thin layer..."
"You can directly change the layout, 20% of the standard layout, maybe..."
"Can we also make changes to the overall shape? If there are enough materials, we can be extravagant. Now the experiment is relatively simple, and the cost of each time has also been greatly reduced."
The last one was said by Liu Yunli and is something everyone knows.
In the beginning, AC gravity experiments cost a lot of money, starting with hundreds of thousands of dollars.
It's different now.
The test funding was significantly reduced, on the one hand, because the materials were provided by Deng Huanshan's experimental group, so there was naturally no cost to speak of.
In addition, there is the issue of temperature control.
The superconducting critical temperature of CA005 is 93K. It is enough to use conventional liquid nitrogen as a cooling method, and the cost will naturally be greatly reduced.
Now they can even control the cost of each experiment to less than 50,000, with most of the cost being equipment, material layout modifications and electricity bills.
Of course, labor costs will also be included, but labor costs are not direct expenses.
During the discussion meeting, Wang Hao and others continuously exchanged ideas and collected a large number of correct ideas, and then formulated the experimental method.
It takes a day to prepare for the experiment, and the experiment location is in the newly built experimental center in the back row.
The next day, Wang Hao directly participated in the experiment. He watched the entire experimental process, and then watched the detection pointer point to a position of over fifty.
"Fifty-two percent!" He Yi said the final value with excitement.
When He Yi and Liu Yunli discussed it, they both felt that the improvement would be more than 50%, but they did not expect that the first experiment would be able to increase the strength of the AC gravity field to more than 50%.
.
Wang Hao's reaction was completely different from what he expected. He didn't have any excitement, but frowned slightly and said, "It's a little less!"
"ah?"
"A little less."
He shook his head and said, "I originally thought it could exceed sixty points."
He Yi and Liu Yunli looked at each other, feeling that they couldn't keep up.
The previous highest communication gravity intensity was less than 50%, but now it exceeds 50%, which can be said to be a 'qualitative breakthrough'.
The result was a bit disappointing?
Wang Hao shook his head and said, "The experimental results are still a little bit worse. We still
We need to continue to study it.”
He frowned and thought, "There must be something I didn't expect!"
The preparations for this experiment were quite complete.
More than twenty researchers participated in the experimental demonstration. They discussed together for nearly a day and analyzed all aspects of the equipment layout.
Normally, the experimental improvement must be great, but the results are somewhat unsatisfactory.
Wang Hao estimated that the maximum could exceed 70%, and the first experiment would see the largest improvement, reaching at least 60%.
So what's the problem?
He quickly thought of the key point. If there was no problem with the equipment layout demonstration, it must be a problem with the nodes.
The material layout of the experiment has always adopted an eight-node design. The main purpose of the node design is to 'gather field forces.
Without the design of nodes, the field force will become dispersed, the coverage area will expand, and the intensity will decrease. However, the design of nodes can gather common sense, so that the field force coverage area will decrease and the intensity will increase.
Node design can play the role of 'field force aggregation,' but due to different material properties, it may also become a strength limitation.
In fact, for the problem of field force aggregation and dispersion, there is no real understanding of the principle, and we only rely on experience.
In experiments, it may happen that node design errors cause force fields in opposite directions to cancel each other out. The only certainty for force field problems is continuity.
The alternating current gravity field is continuous. In other words, the intensity is the same at all locations in the field. It does not appear to be different at different locations like the magnetic field.
This kind of continuity also means that it cannot be repeated. For example, the AC gravity fields released by the upper and lower layers of unrelated AC gravity equipment cannot be superimposed.
After Wang Hao found the main problem, he immediately held a second meeting.
After some discussion, he decided to remove all eight nodes from the design and change it to a horizontal spiral arrangement design for all materials.
This plan is placed on oxidized metal materials, and the AC gravity field strength it brings is extremely weak, even so weak that it can be ignored and cannot be detected at all. Because the discussion meeting had no results, Wang Hao just wanted to try it and see if it accumulates
Let’s take a look at the experimental data.
Through continuous accumulation time and time again, we can also provide a basis for further analysis and discussion.
The design in which all materials are arranged in a horizontal spiral is much simpler than the original layout. All it takes is to shape the materials into a horizontal spiral shape.
With the cooperation of the cooperative factory, it only took two days to prepare for the experiment. After all the materials were delivered, the experiment officially started.
Wang Hao had no expectations for the experiment and just wanted to accumulate data, but he continued to observe the experiment.
As the experiment officially began, the personnel participating in the experiment began to add liquid nitrogen, and the temperature of the material dropped rapidly.
When the temperature dropped to 180K, the equipment was officially powered on, and each detection device was officially turned on. Everyone looked at the pointer carefully.
120K..
95K..
93K...
When the temperature drops to 93K, the device has entered the superconducting state, but the pointer that detects the intensity of the AC gravity field is almost motionless.
The staff in the laboratory immediately sighed with regret.
The pointer doesn't move...
This shows that the intensity of AC gravity is almost impossible to measure.
The experiment failed!
Wang Hao was also a little disappointed. He just wanted to see the impact of the node disappearing, but the pointer didn't even move, which really meant that the experiment failed.
This experiment can be said to have achieved nothing.
Just as I was about to walk away, an accident occurred in the experimental equipment. Liquid nitrogen suddenly sprayed upward from the middle section of the cooling duct.
From the surroundings, it looks like a tiny fountain.
He Yi immediately shouted nervously, "Turn off the equipment! Hurry up! Turn off the equipment!"
If it spurts out
The expansion of the liquid nitrogen coverage area will affect the entire equipment. Some detectors and the electronic equipment below may be paralyzed.
By then, the losses will definitely be huge.
Wang Hao suddenly shouted, "Stop!"
"Everyone, don't move!"
He shouted at the top of his lungs and slowly walked towards the equipment, looking at the "small fountain, it didn't move.
He Yi tugged a little worriedly.
Wang Hao said without looking back, "Don't worry, I just went over to take a look."
He Yi had no choice but to follow.
Wang Hao stood next to the equipment and carefully looked at the small fountain formed by the eruption of liquid nitrogen. He couldn't help but show excitement on his face, "This is extraordinary!"
He Yi also looked over.
Wang Haodao, "If I guessed correctly, this is caused by the gravity effect of communication."
"Although no AC gravity field is generated above, an AC gravity field is generated in the lateral areas of the conductor material layout, and it is a high-intensity field."
"It is estimated that the strength is no less than 70%!"
He took a deep breath and looked at the 'small fountain' again before asking others to turn off the equipment.
After the equipment was turned off, the small fountain suddenly stopped, and others hurried to clean it.
He Yi looked at it blankly, then opened his mouth in an exaggerated manner, "The horizontally generated communication gravity field? Seventy percent?"
Wang Hao did not answer directly, but said with excitement, "Perhaps, we can look forward to building an anti-gravity flying car."