Free Web NovelChapter 996: Chapter 499: Saying Goodbye to Youth!_1
Yanhua University College of Science, Physics Laboratory.
Several professors were personally hands-on, calibrating the newly introduced equipment. They worked not only with seriousness and meticulousness but also with great excitement and enthusiasm, achieving the ideal working state.
This was because the physics laboratory had received funding of over a million, bringing in a large batch of new equipment.
In preparing for experiments, they were naturally earnest and zealous, with their morale running high. At the same time, many professors from the School of Sciences also sighed, "Zhao Yi, you’ve finally remembered the School of Sciences, haven’t you?"
Many felt it had not been an easy journey.
Zhao Yi had already become an internationally recognized top mathematician and physicist, but his achievements in the fields of mathematics and physics were all theoretical and had no connection to practical applications.
At the same time, he had achieved a lot in the fields of medicine, machinery, and materials.
These were technical achievements, directly linked to practical applications, which also drove rapid development in the corresponding laboratories.
For example, the Biomedical Research Institute.
There were also the Metal Material Laboratory, Power Engineering Laboratory, Mechanical Systems and Vibration Laboratory, etc.
Several ordinary laboratories within the university were experiencing rapid development. They received large funds and produced internationally top-notch results, with their environments and equipment substantially upgraded.
There had been little development in the School of Sciences because Zhao Yi had not conducted research related to the application of mathematics and physics; there was simply no need for equipment and laboratories.
This was a source of frustration for the School of Sciences.
But now, things had changed. freēwēbnovel.com
Zhao Yi finally decided to conduct physical experiments, and, of course, he thought of the laboratories at the School of Sciences. As a result, the laboratory received funding of a million and introduced a plethora of equipment.
Even if it was equipment phased out by Shuimu University Laboratory, it was enough for the physics laboratory to undergo a significant equipment upgrade.
Of course.
The introduction and upgrade of these pieces of equipment were intended for project work.
Many people began to discuss the ’superconducting antigravity’ project, "What do you think, can it succeed? Antigravity? It sounds very sci-fi."
"Superconducting antigravity is Li Ning’s theory. I trust Zhao Yi, but not that Li Ning..." freёwebnoѵel.com
"Zhao Yi trusts him."
"Of course, otherwise why conduct the experiment? I think there’s hope since it’s Zhao Yi doing it. But what will happen if it succeeds?"
"Isn’t it obvious? Two Nobel Prizes!"
"Two?"
"Together, Zhao Yi and Li Ning? It’s typical for such cases to share the Nobel."
"It might also be that Li Ning wins the award; it all depends on the selection. However, if the mathematical theory provides support and validation and both are achieved by Zhao Yi, he’s bound to win as well."
"It still depends, and it’s not sure to receive a Nobel. With research like this, if the results aren’t significant, it might take decades to win a Nobel, and some people pass away before that happens..."
"If it takes twenty or thirty years, perhaps Zhao Yi will have won the Nobel by himself."
"Why?"
"Li Ning, is-die~~~"
"..."
While the members of the School of Sciences were engaged in endless discussions, Li Ning was studying the mathematical logic of superconducting antigravity with Zhao Yi.
It wasn’t really a joint effort; it could be said that Zhao Yi was researching on his own, organizing previous content, and incidentally explaining a few points to Li Ning. Li Ning sadly found that he couldn’t comprehend many aspects, especially those involving ’fictional’ elements.
The mathematical framework of superconducting antigravity, of course, was not entirely real.
Some parts were just a framework, a reasoning and imagination of the internal situation of the experiment, which combined the logic of the hypothesis with the experiment to construct an entire mathematical system.
Take, for instance, the sectional theory, which was itself ’imagined.’
The sectional theory was proposed by Zhu Li, a sophomore from the School of Information. He declared that ion lattices would produce a plane with a ’space-separating’ effect in parallel directions,
Zhao Yi used existing mathematical logic to ponder the feasibility of the plane and found that it conformed to the internal mathematical logic and could not be disproved by existing theories, so it was designed and constructed.
Now Zhao Yi had completed an entire mathematical framework around the ’sectional theory.’ Even before the experiment had begun, he already knew it would succeed. The only uncertainty was the ’effect of the space-blocking by the plane.’
The effect, after all, differed.
The ideal state, of course, was complete space isolation. If the gravitational effect caused by space compression was entirely blocked by the plane, then objects above and below the plane would not exert gravitational forces on each other.
The emphasis on gravity was because Zhao Yi had not yet completed the analysis of the electromagnetic force; he did not know how to argue whether the plane could block the effect of electromagnetic forces.
’Complete isolation’ was clearly impossible.
The limitations of the experimental environment were significant, and there would not be high-energy experiments taking place, making it impossible for the ion lattice to permeate the entire space.
But if the sectional theory was correct, it would certainly produce an effect.
This was like a fishing net in a stream of water.
No matter how many holes the fishing net had, the threads used to weave the net would still have a certain blocking effect on the water flow, rather than having no effect at all.
"The experimental design still needs to be more rigorous, and the intensity a bit stronger."
"Let’s wait."
"Given the current conditions, it should be a highly efficient experiment..."
Zhao Yi was referring to superconducting materials.
Superconducting materials, also known as superconductors, are conductors that exhibit zero electrical resistance at a certain temperature. If the resistance of a conductor measures below 10 to the minus 25th power, it can be considered as zero.
