meeting room.
Everyone looked at Ding Zhiqiang in surprise.
Helen and Chen Mengmeng also talked about a lot of content, which was well-organized and fascinating, but most people's recognition was still relatively low, mainly because it was too complicated and they couldn't understand it at all.
Most of the people here are experimentalists, and they only have a rough understanding of things like the semi-step theory, but they can't understand things that are more complicated.
Ding Zhiqiang's words are simple and direct, and you can understand them immediately, and you also feel that it is very feasible.
What he is talking about is control variables.
After eliminating the original anti-gravity factors and treating it completely as an experiment to create a gravitational field, you can use control variable groups to remove structural modules. You may find which modules are useful and which modules are useless.
Of course, the worst result is that all modules are functional and the experiment will not yield any findings.
But in any case, there is hope that something can be discovered by controlling variables to change the underlying module structure.
When there is no clue in the research, such a simple and direct experimental method that is likely to lead to discovery will of course be welcomed by everyone.
Many people are thinking with admiration, "Why, I couldn't think of it?"
The answer is that the experiment is too complicated.
What they did was to test the antigravity behavior of beta-type superconducting materials. The underlying structure was very complex, and its demonstration logic involved many factors, including some semi-topological structure theory factors.
Whenever I think about related issues, I am always influenced by anti-gravity architecture and semi-topological structure theory, which leads to a complete lack of starting points, no clues, and no ideas.
The controlled variable experimental method mentioned by Ding Zhiqiang completely eliminates the factor of anti-gravity, which is equivalent to starting from scratch to study the gravitational field.
It's amazing to think so clearly.
Helen and Chen Mengmeng looked at Ding Zhiqiang and were full of admiration. When they were thinking about it, they could not completely exclude the influence of the experiment itself, that is, the anti-gravity factor. But listening to Ding Zhiqiang's words, it does make sense after thinking about it carefully.
The underlying structure of the experimental equipment is still very complicated, but it can indeed be divided into modules for variable control.
Such an experiment is not difficult, and the probability of discovery is very high.
"Professor Ding is indeed Wang Hao's most promising student!"
"What a genius."
"It's easy to say, but it's not easy to think about. We didn't expect it at all..."
"yes."
Amidst a lot of compliments, Ding Zhiqiang felt a little embarrassed. He was not used to being in the limelight and just liked to sit in a corner in a low-key manner.
In fact, he did not expect that the method he mentioned would get so much recognition. Instead, he felt that the idea was too simple and would be rejected by everyone.
have a look……
What the two senior students talked about was so complicated that it sounded like profound knowledge. For comparison, the two senior students were talking about college mathematics at the calculus level, while what he was talking about was the addition and subtraction of integers in elementary school.
The difference between the two is too big.
The reason why he was able to think of the controlled variable experimental method was mainly because in the past few days, he didn't think about it carefully at all. Instead, he had been immersed in the entertainment of playing games and relaxing. It was only last night that he started to think about it.
Prepare for today's meeting.
Then he found that thinking about the issue of anti-gravity was too complicated. Just searching for information and conducting experiments based on the information were not enough, so he simply ruled out the factor of anti-gravity.
"It actually works..."
Ding Zhiqiang secretly glanced at Wang Hao in embarrassment, and saw Wang Hao giving him a thumbs up.
However, Wang Hao did not praise Ding Zhiqiang, but said, "Everyone said it was very good!" There was a smile on his face and his tone was full of admiration.
Wang Hao admired not only Ding Zhiqiang, but also Helen and Chen Mengmeng.
All three students gave correct feedback on what they said. In other words, they were all helpful to the research.
Helen was talking about theoretical research issues. She wanted to compare the semi-topological structure with experimental results to find out the geometric directionality of the semi-topological structure.
This point of view allowed Wang Hao to determine that the gravitational field and the semi-topological structure are related.
Chen Mengmeng's idea is similar to Ding Zhiqiang's, except that he studies changes in the overall underlying structure, using the direction of the gravitational field as the entry point.
This is also a very good idea.
Wang Hao determined that there is a certain correlation between the direction of the gravitational field and the direction of the underlying current structure.
He also tried to create tasks--
【Task 3】
[Research project name: Improving gravitational field strength based on β-CWY-137 (Difficulty: A).]
[Inspiration value: 0.]
"really!"
Wang Hao sighed.
After having a certain foundation, experimental tasks can be established.
…
Wang Hao quickly explained the next work.
The work is divided into three parts. One part is an experiment to control variables and split the structure, and the other part is an experiment to study the relationship between current and field force by transforming the overall structure.
Finally, there is theoretical research.
Theoretical research is mathematical research. Wang Hao, Chen Mengmeng, Helen and Ding Zhiqiang work together to study the geometric directionality of semi-topological structures, that is, to study the ‘other common factors’ of semi-topological structures through mathematical methods.
The antigravity property is just a geometric orientation of the semi-topological geometric structure inside the material.
They hope to find new geometric commonalities.
If we can find new semi-topological geometric commonalities by comparing experimental data, it may be related to the gravitational field.
By then, theoretical research will have a foundation.
This research is only laying the foundation for theories related to the gravitational field, and only by laying the foundation can we have the conditions to establish new tasks.
Regarding the allocation of experimental work, Qian Hongyu was responsible for the experiment of variable geometric control.
This part is the simplest and easiest to produce results.
He Yi is responsible for the experiment to study the relationship between electric current and field force through the transformation of the overall structure.
This part of the experiment is relatively complex and difficult to produce any results. It can only provide an experimental basis for subsequent research. In addition, because β-CWY-137 is a brand-new superconducting material, they still need to wait for the delivery of new materials.
Only when you come here can you conduct research.
He Yi felt very depressed.
However, he did not say anything about the assignment of experiments, because as far as he is concerned, it can be said that he has no desires and desires. He is already a first-class professor, chief researcher, and an academician of the Academy of Sciences. He has won the Nobel Prize in Physics, and is also
Head of the Anti-Gravity Center.
After reaching this level, there is no way to improve it.
If he wants to go further, unless he applies for a super large project and is responsible for a super large project, He Yi is still very self-aware. He does not have this ability. Therefore, whether the experimental research has results and whether the new research has contributed is a matter for him.
, it’s just the icing on the cake.
Relatively speaking, cultivating talents for the anti-gravity center is more important.
Qian Hongyu is a malleable talent. He is only 41 years old and is already the person in charge of the antigravity behavior determination experiment. He still has great development prospects in the future.
In addition, Qian Hongyu is also the discoverer of the gravitational field and is the greatest contributor to the research. It is normal for him to receive some care.
After the experimental work was distributed, the entire anti-gravity center became busy.
The people involved in each experiment are very serious, especially the core personnel. They know what they have discovered and how significant the new discovery is. It is likely to become a brand new technology. From a physical level, it is
Discover a completely new physical phenomenon.
This is the most significant breakthrough in science.
Experiments with controlled variables are relatively simple to do. What they spend most time on is grouping modules. To put it simply, which parts should be split as a module.
After the design was completed, they modified the device and then conducted experiments one by one.
Two days later.
Qian Hongyu approached Wang Hao with excitement, "Academician Wang, we have made a new discovery! We split the three groups of modules in the center and still created the same gravitational field!"
To be continued...