From University Lecturer to Chief Academician

There are four fundamental forces in physics, namely gravity, electromagnetism, strong nuclear force and weak nuclear force.

The electromagnetic force is the second strongest force after the strong nuclear force.

There have been very detailed explanations about the four major forces of physics, but basic physics is still being studied continuously, and some very important experiments will be carried out, with the purpose of realizing the unification of the four major forces.

This is the ultimate goal of physical research.

Any new and logical explanation about the four forces can be said to be a very amazing achievement, because the research will bring understanding from different perspectives, and will help the scientific community expand research and development and thinking directions.

However, the more basic the research, the more difficult it is.

In terms of the basic explanation of the electromagnetic force, there have been no impressive results in recent decades.

In addition, few theoretical physicists will study and explain the most basic forces. They prefer to perfect the standard model of particles, understand the basic composition of the universe, and analyze black holes, big bangs, antimatter, dark matter, etc.

This may also be related to difficulty.

Every fundamental force has already been explained in detail, and it is very, very difficult to understand it from other angles.

The same goes for the electromagnetic force.

When Wang Hao said that he would use new geometry to explain the electromagnetic force, many people at the report meeting were surprised to discuss, "Use a brand new method to explain the electromagnetic force? How is this possible?"

"Isn't this kind of research too difficult?"

"It's kind of ridiculous..."

"I can't figure out why the new geometry he mentioned can be connected with electromagnetic force?"

"Is it condensed matter physics?"

Someone soon thought of the key.

The top scholars in the world are all very high-level. Even if they are doing mathematics-related research, they must have dabbled in basic physics to a certain extent.

If it is said that geometry problems can be connected with basic mechanics, the most likely field is condensed matter physics. At the same time, many people are also concerned about Wang Hao's "research on physics problems".

That's the key.

In the eyes of the international mathematics community, Wang Hao is the future of basic mathematics, and he is expected to be successful in other research. Why did he suddenly study physics problems?

Although the mathematical method is still used, it is still unacceptable no matter how you think about it.

"How did Wang Hao go to study physics?"

"What electromagnetic force, the four major forces, mathematics is the most important, only with mathematics can there be physics, even Einstein must use Riemannian geometry as the basis to construct his general theory of relativity!"

"Don't study physics!"

"Pure mathematics is what matters..."

Regarding the discussion at the report meeting, Wang Hao couldn't hear it. He just answered a question, and then chose to disconnect, because he was just making a work report, talking about his research work and some progress.

He couldn't wait to count the harvest.

【Task 1】

【Research Project Name: Research on Microscopic Morphology Inside Conductors (Difficulty: S). 】

[Inspiration value: 77. 】

"fine!"

The increase in inspiration value is not as much as expected, it is only about 50 points, but it is also expected.

Wang Hao is still looking forward to the report, mainly because there will be a lot of people listening to the report. He will make the report through video communication, and there will be real-time broadcast of the webcast.

Everyone else can watch the report via webcast.

There was a certain amount of media publicity before, and the number of domestic viewers exceeded 500,000, but the number of people became less and less afterward, because it is impossible for ordinary people to understand.

But even if there are only 10,000 people, it cannot be compared in the classroom.

It's a pity that the inspiration value didn't get an explosive increase. The increase of nearly 50 points in 20 minutes is also very good, but it's nothing compared to the number of people.

"Similar research, ordinary people can hardly bring inspiration."

"Being able to understand is the basic threshold, but most of them don't understand, so the live broadcast for ordinary people is meaningless."

This is the place to be sorry.

Wang Hao is still thinking about another question, "Recording videos will not be effective, because the feedback of inspiration is instant."

"However, live broadcast also has the problem of signal delay, so will some people not give feedback in time because of signal delay?"

"Or because the distance is too far, but how does the inspiration come to the mind?"

"..."

When I think deeply about the problems related to the system, I find that it cannot be explained by the existing science, probably because the system itself is 'unscientific', or it is far beyond the existing scientific level, and it is just a way to judge the correct direction. Functions are definitely not something that programs can do.

"Probably not something of one dimension?" Wang Hao finally shook his head, at least at the current level, it is impossible to understand the system.

He is still focused on research.

A report meeting gained a lot of inspiration, which also gave him a certainty about the research, and he felt that he could complete it with further progress.

Electromagnetic force, broadly speaking, includes too much scope, for example, pushing force, pulling force, supporting force, elastic force, frictional force, and so on.

These forces seem to have nothing to do with the electromagnetic force, in fact, all belong to the electromagnetic force.

Electromagnetic force describes the repulsive and attractive forces between molecules and atoms. When objects touch each other, the repulsive and attractive forces between atoms dominate, forming a series of forces including pushing, pulling, and supporting forces.

However, the research on electromagnetic force is in the "narrow sense direction", that is, the direction commonly understood by ordinary people, including electric field, magnetic field, electrostatic force and so on.

Wang Hao's research can't cover too much scope yet. For the time being, he only conducts research on the energized state of the conductor and the internal microscopic morphology, so as to provide a new explanation for the force of the magnetic field.

A current-carrying conductor experiences a force in a magnetic field; at the same time, a conductor moving in a magnetic field generates an electric potential.

This is the knowledge of electromagnetic field forces in high school physics.

Most of the basic explanations now are directly related to the movement of electrons, but in fact, it is not only electrons that participate in the reaction, because compared to the nucleus, the mass of electrons is negligible, and no matter how strong the force is, it is impossible to drive the movement of the conductor produce a macroscopic mechanical response.

The process of the force on the conductor must be the participation of the atomic nucleus, and the underlying basis is still the interaction between atoms.

Just like ordinary thrust, only atoms interacting with each other can produce such a significant force.

Wang Hao's research is to explain the interaction of current and magnetic fields with the microscopic morphology in the conductor.

It's all based on mathematics.

...

At the International Conference of Mathematicians, Wang Hao only gave a 20-minute work report, talking about his research content and some progress, but the impact was still great, and many people knew the news.

Among them is Wang Chenglin, the chief researcher of the Basic Science Center of Capital University.

After reading all the reports, Wang Chenglin came to a conclusion based on his team's research, "Wang Hao's path has gone astray."

He knows more than anyone else.

He knew very well that Wang Hao's research was based on the communication gravity experiment, so the so-called new geometry must be directly related to the experiment.

"How can the AC gravity experiment be connected to explain the electromagnetic force?" Wang Chenglin couldn't figure it out at all. He thought about it carefully and thought that Wang Hao still regarded the AC gravity field as a field directly related to the magnetic field and the electric field.

This is how to link the two together.

But with existing fundamental physics, it's clearly not feasible to try to understand the AC gravitational field.

The reason why Wang Chenglin is very confident is because their research has made progress, and it can even be described as outstanding results.

By analyzing the experimental data, they established a complete mathematical model, using the AC gravity field as the standard, to study the relationship between temperature and material, and the next step is to analyze which material is more likely to excite the superconducting state.

Easier, that is, higher excitation temperature.

The goal of this research is to use mathematical analysis to try to study new high-temperature superconducting materials, and even "predict" to a certain extent.

He invited four mathematics experts to do related mathematics work, and the established mathematical model was very perfect.

At the same time, the work results have also been recognized by the researchers of the 244 factory.

in the office.

Wang Chenglin was talking to Wang Qiang, "With our current achievements, we can apply for new projects."

"We are doing research on the mechanism of superconductivity. The main purpose is to study new high-temperature superconducting materials. However, we are also doing AC gravity experiments. Our research projects will also share data with Factory 244."

"I believe it will also be helpful to your research."

Wang Qiang said with a smile, "Your research is indeed very high-level. It is really helpful for us to refer to your data. I personally hope that you can continue."

To continue, you must apply for a new project, otherwise it is impossible to have sufficient financial support.

Wang Qiang said politely, but he still felt very puzzled.

He had been at the Basic Science Center all along, but he heard that Liu Yunli, Ruan Weiping, and Xue Chang had applied for project transfer together, and he didn't know what happened.

He couldn't help pondering, "It seems that I still have to go back, I haven't heard any news from here."

"Liu Yunli couldn't explain clearly on the phone."

"Is the study of annihilation and topological superconductivity at Xihai University more meaningful than the analysis and development of high-temperature superconducting materials?"

...

Xihai University, Physics Laboratory.

After the last verification experiment ended, the laboratory did not prepare new experiments, mainly because Wang Hao still needs to continue research in order to determine the direction of the next experiment.

Plus, they need to wait for new equipment.

Nowadays, the requirements for experiments are getting higher and higher. When verifying some low-temperature superconducting problems, the accuracy at the equipment level is obviously not enough.

The last time I suggested to Qiansheng to buy a set of temperature control equipment with higher precision.

After thinking about it, Wang Hao agreed.

After continuing in-depth research, he is sure that the subsequent experiments will require higher and higher equipment accuracy, so it is necessary to purchase very high-end equipment.

They contacted the Key Laboratory of Superconductivity directly.

The Key Laboratory of Superconductivity has a set of high-precision temperature control equipment. The question of price is left to Xiang Qiansheng. large equipment.

In the end, the price negotiated was 32 million, just like what Qiansheng said, it was only 30 million, and the superconducting laboratory would definitely not want to sell the equipment.

Now we can talk about 32 million, or because of the 'face' of Wang Hao and Xiang Qiansheng.

The two sides discussed the issue of new equipment, but it still takes a lot of time to disassemble and assemble the new equipment from the superconducting experiment and then transport it here for installation and debugging.

This is not a computer, but a large set of equipment, just dismantling, transporting, and installing, it is impossible without a month.

Subsequent debugging is required before it can be applied to experiments requiring high precision.

"The minimum estimate is more than two months." Xiang Qiansheng told the time.

This speed is already very fast.

If it is to purchase a brand new equipment, not to mention the high price, it takes only one year from ordering, production to transportation and commissioning.

This is the case for high-precision equipment in the laboratory, because there are very few manufacturers of similar equipment, and only one will be produced after ordering one, and there is no point in producing it in advance.

This is also because the needs of each buyer are different, and it is impossible to sell high-end equipment produced in a standardized manner.

After ordering new equipment, the physics lab was running out of money.

Wang Hao also asked He Yi, Xiang Qiansheng and others to summarize the experimental results and apply for new funding from the Science Foundation. They have already achieved two major achievements.

One is to increase the value of the AC gravity field to more than 17%.

One was the discovery of an alternating gravitational field in an unactivated superconducting state.

The former is a huge improvement in technology, and the latter is a new discovery in research related to gravity. It can be explained with only one result. It is definitely no problem to add the two results together to apply for new funding. The only difference lies in the amount of funding for the next step.

The time has come before the semester begins.

Wang Hao's professional title is still a second-level professor, and he has not continued to raise it to another level. Under normal circumstances, the rating of a professor requires comprehensive consideration of teaching and scientific research.

Professor, after all, is a teaching title, and his teaching years are still too short.

Related to research is the 'research rating'.

Luan Haiping found Wang Hao and talked about it, "Are you going to be elected as an academician of the Academy of Sciences next year?"

"Candidate for academician?"

"That's right." Luan Haiping said, "There are only four academicians in our school. Mr. Li has retired. Mr. Chen does not need to introduce. The remaining two are engineering academicians of the School of Geology. The school also supports you to participate in the co-option of academicians. .”

"I'm only 26 years old, isn't it a bit early?"

"It is late!"

Luan Haiping immediately shook his head, "The addition of academicians, at least in principle, hopes to select some younger scholars. Is your achievement comparable to others in mathematics?"

"If you can be selected as an academician next year, our Faculty of Science will be regarded as an academician, and the future development will be better."

"In this regard, the school has already discussed it and will definitely fully support it."

"Ah~~"

Wang Hao thought about it carefully, and it was indeed not harmful to him to be an academician, "Okay, but for the co-option of academicians, do you need someone to recommend it?"

Luan Haiping laughed when he heard that, "Are you still worried that no one will recommend you? Just put your name in, and there will be a lot of mathematics academicians who will recommend you."

"If you participate in the co-option of academicians, more than 90% of them will be elected."

"Don't worry about this."

Wang Hao was not worried that he would not be selected, he just felt that he and the academician seemed to be far away, because when talking about the academician of the Academy of Sciences, he couldn't help but think of the old figure in his mind.

Even if they are just scholars participating in the co-option of academicians, they feel that they are already fifty years old.

He continued talking with Luan Haiping for a few more words, but he didn't take it to heart, after all, it was next year's business.

There are still many things to deal with in the new semester.

The first thing is that he brought an extra graduate student—Ding Zhiqiang.

Ding Zhiqiang was a student Wang Hao named him. Even if he had no graduate student quota, the school made a special case for him to lead him, and no one else would say anything.

After confirming that Ding Zhiqiang became his student, Wang Hao still had some expectations.

Even for his own students, he still has a ranking in his mind. For example, he thinks Qiu Hui'an is the most talented, because Qiu Hui'an is doing research on Legendre's conjecture, and has already made a lot of progress.

Among them, the one with the highest IQ is of course Helen.

Chen Mengmeng also has a certain amount of talent, she may have more ideas, it is hard to say what will happen in the future.

Xu Jie, the worst talent, is not bad at dealing with people. He is the kind of student whose tutor likes to be able to do things. Of course, the lack of talent is only relatively speaking. No matter how he is a student who is normally admitted to a prestigious school, the difference will not be too bad.

Now there is another Ding Zhiqiang among the students in the Department of Mathematics.

Wang Hao believes that Ding Zhiqiang has a strong learning ability and is a very diligent student. He taught himself a lot of mathematics knowledge during his undergraduate studies.

"He probably belongs to the kind of student who chose the wrong major and only started to work hard in college."

When Wang Hao and Lin Bohan were doing research together, they talked about Ding Zhiqiang, who will be reported in the future.

There was also Chen Mengmeng listening.

Chen Mengmeng told other people the news, and several other students also knew that there was a junior whom Wang Hao was very optimistic about, who was about to join their 'organization'.

"This junior is so favored by Teacher Wang, he must be a very genius!" Chen Mengmeng said with admiration. She felt that she was already very good, but she had never received such praise from Wang Hao.

"When the time comes, shall we test him?" Qiu Hui'an made a small suggestion.

"Teacher Wang said that he is very talented, so he must be very smart. General questions are not difficult at all." Xu Jie frowned and said, "But if the content exceeds the outline, it feels a bit bullying."

"I have an idea." Helen who had been sitting in the corner suddenly said.

The three of them looked at the past together.

Helen said, "A person with a high IQ will often have a strong memory and learning ability. We can find some super-class content and let him learn by himself."

"Through his study time, testing his understanding, and making detailed records, we can judge his genius level to a certain extent, and even infer his IQ level."

"This could also be considered an experiment."

Helen finished speaking seriously.

Both Qiu Hui'an and Chen Mengmeng found Helen's proposal very interesting.

Taking juniors as IQ test experiments?

It sounds very interesting, of course, the premise is that the students don't find out, otherwise it will be a bit too embarrassing.

Xu Jie was stunned for a moment, he recalled it carefully, and then suddenly realized, pointing at Helen angrily, "So it is like this!"

"Helen, last year you found a research paper on algebraic geometry. You asked me to understand the content by myself, and you also said that it was a learning task assigned by Teacher Wang."

"Later, I asked other people, and there was no such thing at all. I thought it was you who made a mistake..."

"So you're using me as an experiment!"

Xu Jie gritted his teeth and shouted, full of grief and hysteria, he felt like he had become a gorilla, the point is that he didn't know about it after he was 'experimented'.

Helen picked up a book and quickly rushed out of the room, leaving behind a sentence, "I'm going to have lunch."

"It's only ten o'clock!"

Xu Jie quickly exposed Helen's lie.

Chen Mengmeng and Qiu Hui'an asked curiously, "How's the result? Have you tested it?"

Xu Jie held back a sentence full of grief and indignation, "I don't understand..."