Decisions regarding the latest dostic technologies always sought Zhao Yi’s opinion, for he was the most knowledgeable about the technology and his personal influence radiated across the world, making him the most influential scientist.
However, Zhao Yi had little interest in decision-making, mainly because Z-wave related research involved confidentiality issues. He definitely wouldn’t make decisions himself but could only provide his opinions for reference.
The first point he raised was that the study of the Z-wave coverage area was very aningful.
The current situation in the Z-wave coverage area and its physical properties were all interpreted by him from experintal results, but he couldn’t possibly interpret everything.
When spatial compression occurred, how the surrounding space operated, the overall reaction it provoked, and the changes in the internal physical chanisms, each question was incredibly complex. There was much to study, and with patience, there would definitely be many new discoveries.
That was also why many foreign institutions and scientists hoped to participate in the physical research related to the Z-wave coverage area.
The dostic Z-wave Generators were still based on Zhao Yi’s initial design.
Z-wave Generation Technology was said to be mature, but in reality, it was only being used proficiently. Perhaps Z-wave Generation Technology could be applied in many areas, but due to a lack of understanding of the relevant technology, the application scope had been greatly narrowed.
Application is not analysis or research.
Dostically, with Z-wave technology, it was as if they had accidentally discovered how to make explosives and kept making them, using the explosive properties in various fields. While the application was very proficient, what was lacking was in-depth research into the explosives.
Why could explosives be made following a recipe?
Why do they explode?
And so on.
All these scientific aspects required very careful and in-depth research.
If application was the only focus, many things would certainly be missed.
Z-wave technology was no different; in-depth research was a must-do for the future.
When many foreign institutions ca to talk about joining the research of the physical properties of the Z-wave coverage area, it was very tempting for the dostic front.
That was mainly because there was a lack of top theoretical physicists dostically, and the physical issues of the Z-wave coverage area were more complex than particle collisions, requiring the involvent of many top physicists.
Although in recent years, dostic policy has been encouraging the cultivation of theoretical talents in physics and mathematics, the short ti fra ant the results weren’t very good. Additionally, not every person who worked hard could beco a top mathematician or physicist; talent was vital for mathematical and theoretical physics fields.
So individuals were adept at solving problems and could quickly answer any difficult questions. They could be considered geniuses, but when it ca to research in mathematics and physics, their work efficiency was very low.
Therefore, cultivating theoretical geniuses was extrely difficult, requiring a large base of talents before top individuals could erge.
For many past years, dostic education emphasized engineering, with fields like information technology, chanics, and materials; graduates from these fields found jobs more easily. For disciplines such as mathematics and physics, finding a job might require a switch in profession.
The utilitarian nature of university education was also a barrier to the cultivation of talent in the sciences.
And so on.
But no matter how excellent the training environnt, it was not possible to cultivate a large number of top theoretical physicists in a short ti. High-end research like the physical properties of the Z-wave coverage area, akin to particle collider research, required thousands or tens of thousands of top talents. It needed the world’s talents to be brought together to potentially make new discoveries.
The dostic advantage lay in not needing to spend a lot of money to build Z-wave Generators to attract talent. The concern was, while attracting talent was easy, the challenge lay in ensuring the confidentiality of Z-wave technology.
That would be left for the higher-ups to decide.
After several years of developnt, the country completed space deploynt, gained a dominant position in air superiority, and accomplished global space surveillance, holding an absolute advantage in the competition.
In such a competitive advantage, the high-end decision-makers considered things differently.
If able to lead a research project that attracted top global talent, it would draw a significant number of talents to the country, greatly boosting future potential and impact, while also bringing benefits in technology, strategy, and collaboration.
And so on.
The multiple benefits were important reasons for the hesitation in decision-making.
These matters were beyond the scope of Zhao Yi’s concerns.
He only offered his opinions on technical matters; issues like strategy and confidentiality needed specialized talents to contemplate.
——
The land shuttle experint of the space shuttle had ended, and the world witnessed miraculous shuttling, bringing more attention and support to the project.
If the core section could achieve land shuttling, it indicated that there were no technical obstacles for the project going forward, allowing the smooth progression and step-by-step assembly of the large spacecraft.
One thing was certain, the subsequent progress of the space shuttle would be swift.
Zhao Yi would also continue participating in the project, but since most of the subsequent stages involved other supporting branches and a series of tests, the real work that landed in his hands wasn’t much, nor was there a need to remain in the space city.
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