Free Web NovelChapter 681: Chapter 379: The First Discipline of Theoretical Physics_2
Upon hearing this, the people around began to clap.
"Thank you, thank you very much!" Zhao Yi sincerely expressed his gratitude. The University of California, Berkeley, is one of the top universities in the world, ranking in top ten in the world academic standings; Berkeley Branch’s public acknowledgement and the introduction of the Boundary Theory of particles would be very helpful to the promotion and development of Boundary Theory.
Next was Toshihide Maskawa.
Toshihide Maskawa used the etiquette of the RB people, bending his waist when shaking hands with Zhao Yi, showing a respectful and approving attitude.
Zhao Yi felt somewhat uncomfortable and even embarrassed.
As a sixty-year-old elder, Toshihide Maskawa was a Nobel laureate in physics and had great achievements in physics. Traditionally, it should be him who shows respect.
With a gentle smile on his face, Toshihide Maskawa said, "I’m very interested in the part about particle mass. If further research is conducted, it should relate to gravity, right? And also electromagnetic force."
Zhao Yi replied frankly, "That’s still a bit far. I haven’t started researching electrons because electromagnetic force would be involved. Electromagnetic force is too complex. Gravity is just a theory and I hope to prove it in the next step."
The conversation between the two made others around realize.
The first few rows were made up of top mathematicians and physicists. Even if they had not won Fields Medals or Nobel Prizes, their abilities could not be questioned. Maybe they were just not lucky enough, and the research they did could not be verified, or they did not achieve results that contribute to the development of mathematics and physics.
Nothing more than that.
In fact, awards were just a halo. Just like football players, some football stars were restricted by their nationality and unlucky. Their professional careers of ten or twenty years did not win any championships, but it did not mean that those who won were necessarily better in skill than those who did not.
It was the same in academia.
Stephen Hawking never won a Nobel Prize, but his name has almost become universally known.
Einstein won the Nobel Prize in Physics not for the most famous relativity theory, but for the ’almost unknown to few people’ photoelectric effect analysis.
So, the first two or three rows of top mathematicians and physicists had no significant difference in level. Hearing Toshihide Maskawa’s words and connecting them with the recent ’Mass-Energy Structure Theory’ proof, they understood the meaning immediately.
If they continued the research, it would definitely be linked to the four forces, and there would be no other way to go.
When the situation involves mass, gravity will definitely be involved at the same time. Since electrons are a type of particles, their energy analysis will inevitably be linked to electromagnetic force; otherwise, it would be impossible to achieve it.
If the analysis of mass and electrons is completed, the research will explain the origins of gravity and electromagnetic force, and it will definitely be a great advancement in physics. It can even be described as a ’physics revolution.’
Why?
No matter whether it was Newton or Einstein or other famous physicists, their research results were all about ’summarizing the rules’ in the end.
Whether it was the laws of nature or the laws governing the movement of galaxies, they were all about summarizing the existing rules so that people could apply these rules to understand, deduce, and explain other things.
What Zhao Yi is doing now is ’analyzing gravity’ and ’analyzing electromagnetic force.’ In other words, he is going a step further, summarizing the laws of microscopic particles while also analyzing the higher-level rules.
Why does gravity occur?
Why does electromagnetic force emerge?
If the research goes to this extent, it will definitely lead to a ’revolutionary’ development in physics.
Many people are excited and looking forward to that moment. Many have said that the lack of significant progress in physics research in the past few decades has good reason. The recent development of science and technology is supported by physics theories from a hundred years ago. Modern physics research zeroes in on the cosmos and particles, and it can only deepen our understanding of the universe and the microscopic world but cannot be applied to our daily lives.
For example, black holes.
What would the black hole theory mean to the scientific and technological development of the next several decades, even if it is true? freeωebnovēl.c૦m
There is none.
Mainstream development such as nuclear energy, electric energy, information technology, and so on, do not require support from physics research in recent decades. Furthermore, the more cutting-edge quantum computer, which aims to become widely accessible, is still only a dream at the moment.
Many physicists believe that physics must make another ’revolutionary’ breakthrough to create more advanced and imaginative things.
For example, how to build a flying car?
Maglev technology is an optional choice, but without a doubt, its price would be very expensive. Once produced, it would also be very unstable, with various problems cropping up.
If a new technology with low cost can create stable flying cars, it would bring a new appearance to human transportation.
But where does this technology come from?
The first step is theoretical support. For that, physics must make tremendous progress.
The theoretical research done by Zhao Yi could potentially break the bounds of the development of physics and serve as the driving force for its revolutionary development.
As the people around thought about the prospects of the research, they couldn’t help but get excited. Many decided to study the Boundary Theory of particles seriously when they return.
