In the office.
The people in the research team kept discussing and recording. They were studying possible special phenomena, but they never thought that they could have a theoretical framework.
Although it is only a few words and does not fill in enough mathematical foundations, overall, it already has a general theoretical framework.
The name of this theory is "The Development of the Universe and the Properties of Elements".
The main content of the theory is that as the annihilation force in the universe continues to increase, the properties of elements are also constantly changing.
For example, regular iron.
Conventional iron elements are stable and not radioactive. Iron elements have several isotopes, three of which are radioactive.
, their atomic mass numbers are 53, 55 and 59 respectively.
After countless years of evolution, in a cosmic environment with enhanced annihilation power, perhaps a certain isotope has become a stable element in the process of constant change.
Of course, the above are just examples.
What the new theory wants to express is that an element in a stable state under a conventional annihilation force environment may become a decaying element after tens of billions of years of natural evolution.
Through long-term natural evolution, some decaying elements have the same behavior.
May become stable.
The new theory is related to the annihilation force field experiment and upgraded elements. It is believed that there is a deviation between the elements that are upgraded under the action of a sudden increase in annihilation force and the elements that naturally evolve with the increase in annihilation force.
The difference between the two is a peculiar phenomenon.
"This peculiar phenomenon may be a special magnetic field, some undetected rays, or other manifestations..."
"But in any case, the existence of special phenomena provides resistance to the strong annihilation force field."
Paul Field-Jones said, "I still prefer specific magnetic fields, because experiments have proven that magnetic fields have a repulsive effect on strong annihilation force fields."
"The existence of some special magnetic field may weaken the effect of the annihilation force field within a certain range."
The point put forward by Paul Phil-Jones is indeed very reasonable, and directly explains the problem of the fixed first-order iron content of raw materials under a strong annihilation field.
But how to prove it?
Wang Hao can't think of it yet. The only thing he can think of is...
Nuclear testing.
Just like what Ding Zhiqiang said.
Finally, Wang Hao looked at Ding Zhiqiang. Paul Phil-Jones and Helen also looked at Ding Zhiqiang, hoping that Ding Zhiqiang would have some good ideas.
Ding Zhiqiang....
He shrugged and said nothing.
Wang Hao, Paul Phil-Jones, and what Helen said, Ding Xingtian and others fought.
Zhiqiang can understand it. Because of this, he is going through a process in his heart.
If Wang Hao just forced himself to say that he was a genius, Ding Zhiqiang would immediately classify him as a "positive PUA".
Now…………
This is true for both Paul and Helen.
The problem is that Ding Zhiqiang thinks what they say makes sense, and by thinking along the lines of "nuclear experiments", he completes a theoretical framework.
When he thought of this, Ding Zhiqiang felt that he was a genius.
He told the result directly!
Wouldn't conducting a nuclear test under a strong annihilation force field prove all the inferences? At that time, it was just a casual comment, but it led to a lot of analysis.
The final problem still has to be attributed to nuclear experiments.
It's like answering a super difficult question. He gave the answer directly, and others got inspiration based on the answer, and then slowly reversed the process...
When Ding Zhiqiang thought about it carefully, he couldn't help but doubt, "Am I really a genius? It's impossible...
"Why don't I feel it myself?
"When it comes to IQ, Teacher Wang Hao
, Helen, Paul...ahem, there is no comparison at all. Speaking of other things...what else? "
He was lost in thought.
the other side.
Tian Guilin, Liao Zhenxing and Wang Zhimin did not say a word during the whole process, they just sat aside and listened quietly.
They were initially shocked by "the discovery of first-order lithium, its extremely high content, and so on. Later, when they actually entered the discussion, they found that they could not get a word in at all."
Another reason is that they feel that their IQ is completely unable to keep up, and they are deeply shocked.
Mr. Jones made a complicated statement, but Ms. Hinton could react instantly, and then continued on, saying that she didn't quite understand.
have a look!
Can you add some personal opinions?
Doesn't she have to think?
The little fat guy named Ding Zhiqiang is even more powerful. He is indeed Academician Wang Hao's most valued student. He is simply a genius to the extreme.
While others were still thinking about the derivation, the little fat man had already come up with the conclusion. It was like doing a super difficult calculation problem. It would be great if you could find a way to calculate it. As a result, someone directly told the answer.
Although they couldn't quite understand it, they still felt it was very powerful.
Don't you see it?
Mr. Jones, Ms. Hinton, and Academician Wang Hao all gave the little fat man a thumbs up. When they had questions, they all looked at the little fat man...
wrong!
You must never call me fat boy from now on!
Want to call………………
"Professor Ding!
After the discussion of the research group ended, Wang Hao, Helen and Paul Phil-Jones left. Liao Zhenxing and Wang Zhimin immediately surrounded Ding Zhiqiang, "Professor Ding, I heard your name when I was at the Institute of High Energy. It’s like thunder piercing my ears!”
"Professor Ding, you are truly a genius. We need to learn more from you. Can you recommend some information to us?"
"Professor Ding, what are you studying? Can we help?"
"Professor Ding..."
Tian Guilin stood at the door with his hands behind his back, watching, and couldn't help but sigh in his heart, "Zhenxing and Zhimin are really smart."
"Although Professor Ding is still young, he is a formidable young man. If they stay here and discuss with Professor Ding more, they will surely learn a lot."
"As expected of Academician Wang Hao's most valued student...
While Wang Hao's research group was immersed in the study of special phenomena, the international physics community launched a fierce scientific research competition around first-order iron.
"Measurement of First-Order Iron Radiation Waves".
"Method of creating first-order energy waves by exciting radiation".
"Precision Measurement of the Melting Point of First-Order Iron".
"An ultra-low carbon content first-order iron steel". "The next level of iron in normal environment...".
Every issue of the top international physics journals will have results related to "first-order iron". There are many institutions that have a large amount of first-order iron materials.
Researchers work day and night to make new discoveries faster.
At the same time, there have also been many results related to first-order iron research.
Most of the results focus on physical properties, radiation properties, and electromagnetic properties, and some are theoretical studies that make inferences based on experimental results.
etc.
Some powerful materials institutions are making progress in first-order ferroalloy research.
It has developed rapidly and successively launched results related to first-order ferroalloys.
For example, the Aerospace Materials Institute uses first-order iron as raw material to create a low-carbon steel with a toughness of up to 1,450 MPa and a Rockwell hardness of 75.
This data is not the toughest among steels, but the results released by the Aerospace Materials Institute only illustrate a problem, "We use conventional iron as raw material and the steel produced by the same method has a toughness of 1230 MPa and a Rockwell hardness of 63."
"Switching to first-order iron, the toughness and Rockwell hardness have been greatly improved."
"In the direction of alloy manufacturing, first-order iron is used to replace ordinary
Gauge iron, the steel produced has stronger toughness and hardness. "
Several top materials institutions have released similar results, including the Wuhan Iron and Steel Research Institute, the Fucheng Shipbuilding Industry Steel Research Group, the Technology Department of Locke Lisman Steel Company, the Metal Materials Research Institute of the Max Planck Society, and so on.
Putting these results together, we can make a simple summary. The toughness and hardness of steel made with first-order iron instead of iron will be greatly improved, with the improvement ranging from 10% to 30%.
This effect has been very significant.
Professor Sun Haonan of the Fucheng Shipbuilding Industry Steel Research Group gave a representative statement in an interview, "Steel made with first-order iron replacing conventional iron has improved physical properties in many aspects.
"If you don't consider the cost of first-order iron, it will be easy to manufacture steel with the same demand."
"For example, ships require a high-strength special steel. We originally needed to continuously refine it. The manufacturing process is extremely complicated and the manufacturing cost is also very high."
"Using first-grade iron, it becomes much easier to make steel with the same performance."
"Of course, considering the current high cost of first-order iron itself, it is not realistic yet..."
"This reduces costs."
What Sun Haonan said is true.
The manufacturing process of some special steels is complicated and the cost is very high. If first-order iron is used to replace conventional iron, the required manufacturing difficulty will be reduced, and the manufacturing cost will naturally be reduced.
At the same time, performance may also be improved.
Because of this, many corporate institutions can't help but look at the technology department and pay attention to the progress of new companies.
If the new company is formally established, it will definitely sell first-order iron on a large scale.
By then, the price of first-order iron will also become lower, but we still have to wait and see what will happen.
In international competition for first-order iron research, international annihilation
The theoretical organization published a piece of news that attracted the attention of many people——
"We regret to announce that Empoli-Cubo will no longer be in charge of the International Annihilation Theory Organization..."
Empoli-Cubo resigned.
The chairman of the International Annihilation Theory Organization resigned suddenly, seemingly without any warning, but people who knew something about the situation thought it was normal.
Because the research progress cannot keep up.
The Antigravity Behavior Research Center has continuously announced results, allowing the international physics community to understand their research progress. At least the strength of the annihilation force field is clear.
The annihilation force field created by the International Annihilation Theory Organization is only about 4 times stronger.
Antigravity Behavior Research Center, more than 7 times.
The gap is almost doubled, and the technical difference is more than doubled. It can be described in several generations, and it will certainly not satisfy the countries and institutions behind the organization.
Empoli Kubon can serve as the head of the Annihilation Organization because he has the support of the Amerikan Energy Department and the big shot Druk Bent.
When the Ministry of Energy and Druk-Bent became dissatisfied, Empoli-Cubo had only one option: to leave.
In fact, Empoli-Cubo still struggled a lot. He returned to Amerikan and met with Druk-Bent, but he could only admit that he could not catch up within two generations.
"Three generations!
"This is the result of our discussion!"
"The technology of the Antigravity Behavior Research Center is very strong, but they cannot continue to improve. It only takes two or three years for us to catch up..."
Druk-Bent replied angrily, "You said last time that the annihilation force field created by Wang Hao's team had a strength of about 6.6. That was also the result of your discussion, right?"
"Now, it's like this again."
"I don't want to hear the same words and experience the same disappointment again..."
"Mr. Cooper, you can leave."
Then, Empoli-Cubo was dismissed directly on the spot without even going to 0zhou.
Druk-Bent was indeed very angry.
angry.
This kind of anger is not just because the Annihilation organization's research and development progress is not catching up.
He lost his opponent because of the pressure from work.
He is leaving office soon.
Everyone has to think about their future. Druk-Bent is a politician, so he naturally hopes to achieve success at work so that he can develop better in the future.
However, Druk-Bent did not have any notable achievements during his tenure.
Originally, I thought that when new physics appeared, I would invest heavily in support to catch up with competitors and let Amrican take the lead in the field of new physics.
result……
The gap seems to be getting bigger and bigger!
Druk-Bent still did not give up. He knew that during his tenure, he would not be able to see the day when annihilation field research reached its peak.
However, he can continue to support.
If it was his policy when he was in office that the research in new physics directions could catch up with his opponents, then it can be said to be his political achievement.
Druk-Bent gave up on Empoli-Kubo, but he did not give up on annihilation field research. He made a decision, "We must continue to increase investment and provide greater support."
"It's definitely not possible to just rely on the Annihilation Organization now."
"We still have to rely on our own people... We should raise more funds and let national laboratories do this research.
"The annihilation force field may be a strategic-level research in the future!"
"The Annihilation Organization cannot give up. They still have to send another person. However, Empoli failed. It will be difficult for the person sent there to continue to be the person in charge..."
"Damn Empoli!"
at the same time.
Argonne National Laboratory.
Duroinshev-J-Baker walked out of the experimental room tiredly. He took off his work clothes and threw them directly on the table. The excitement all over his body could not be hidden at all.
His team has just completed an ionization energy detection experiment and made an extremely surprising discovery—the ionization energy of first-order iron is between 12.2eV and 12.4eV.
The ionization energy of conventional iron is 9.32eV.
Compared with conventional iron, the ionization energy of first-order iron has been greatly improved.
Ionization is a reaction between physics and chemistry, and it is difficult to directly classify it into the categories of physics and chemistry.
Most studies of first-order iron focus on physical properties. As more research is conducted, the chemical properties of first-order iron remain unchanged compared to conventional iron.
Duroinschev-J-Baker just wanted to find a surprising direction for his research, and he never expected that he would make such an astonishing discovery.
Once this result is made public, there are many points that can be explored.
The physics community is currently engaged in a scientific research competition on first-order iron, and Duroinschev-J-Baker also decided to publish the results quickly. He contacted several physics magazines and finally chose the magazine "Science".
Compared with other magazines, "Science" magazine will publish results half a month later, but "Science" magazine is obviously more influential.
This result is definitely worthy of the level of Science magazine.
Duroinschev-J-Baker walked out of the laboratory with excitement, and happened to bump into Christopher Johnson. His expression suddenly showed a warm smile, "Christopher, how is your group? Has there been any results?"
Christopher frowned immediately.
Although they both work at Argonne Laboratory and are both researchers in the materials group, their relationship is far from good because they compete with each other to be the best in metal materials in the laboratory. Sometimes they don't even say hello when they meet. one time.
Now seeing Duroyshev's enthusiasm, Christopher asked with doubts, "Have you discovered anything?"
Duroinshev gave a thumbs up and said with a smile, "As expected of Christopher!"
"Congratulations."
Christopher said this and walked away immediately. He didn't want to see Duroyshev's happy face.
If Duroyshev's research fails to make progress,
Maybe he will be in the mood to talk to the other party a few more words, for example, to persuade the other party to "don't pay too much attention, because no matter what, there will be no progress."
Duroinshev didn't care either.
Anyway, the new results will be published soon. By then, his first-order iron research results will surpass Christopher's.
By then, everyone will know who is the number one person in Argonne Laboratory’s metal materials field.
Duroyshev hadn't waited for his own results to be published, but he had waited for the results released by the Antigravity Behavior Research Center.
The new issue of "Annihilation Physics and Theory" discloses new research findings, mainly focusing on the "second upgraded element-lithium".
"First Order Lithium Element".
"Ionization energies of first-order iron elements and first-order lithium elements".
Three research results related to first-order lithium were published together, which immediately caused the national physics community and related public opinion to boil...
"Abnormal ionization properties of magnetized lithium element compounds".
