Fish_l
Translator: 549690339
Moreover, another negative objective rule is that with the continuous advancent of technology, the learning ti required to accumulate basic knowledge will inevitably beco longer, which will not change as children’s learning abilities continue to improve.
In ancient tis, being able to read and write was enough to work as an accountant, but in the twenty-first century, this has beco a matter for elentary school students.
In the previous tiline, Harrison Clark finished learning advanced calculus in preschool education, but it took ordinary people forty years to complete their undergraduate studies.
In ancient tis, those who could live to thirty years old didn’t even need to read books or be eloquent, as they were already considered respected and well- read wise n in their hotowns.
If they could read a little more and write, they were considered people with real knowledge.
The reason for this was that there was not much human mory needed in ancient tis, as knowledge was still in the process of accumulation.
Of course, there were also extraordinary and unique geniuses in ancient tis, who could reach profound truths with a minimal amount of background knowledge, but they could only lant not being born a thousand years later.
By the twenty-first century, however, masters at the age of thirty beca rare and one in a million.
By the thirty-first century, true scholarly masters were usually over one hundred years old and still ntally sharp, considered “middle-aged” and “elderly.”
Looking at the whole of humanity, among the hundreds of millions of scientific workers, Martha Owen is the only one of her kind, one in a billion.
Scientists like Dr. Owen and Scott are not bad, but the gap between them and people like Bernal Connor and Immanuel is infinitely vast.
The reason for this phenonon lies in the fact that with the continuous extension of the average lifespan in future generations, the original short lifespan of a few decades has been extended to nearly two hundred years.
After experiencing a dozen years of youth and growth, people basically still reach adulthood at around sixteen, followed by a long period of maturity, which lasts until a few decades before death, when irreversible aging begins to cause noticeable physical decline and ntal slowdown.
As for various diseases that can potentially lead to ntal decline, with the help of dical thods like Quark Therapy Device and Internal Circulation Cultivation Tank, which can almost reconstruct the body, they are not a problem at all.
The body can be reconstructed, and broken parts can be replaced.
Harrison Clark contemplated for a long ti and decided to take a big step forward in biology and dicine.
He decided not to wait passively for future generations or accidents to increase the awakening rate, nor to place most of his hopes on the S Bacteria, but to take the initiative to attack,
In the previous tiline, scholars have left many ways to develop genes, such as Dr. Jas Wright’s Jas Amino Acid, Dr. Watson Gesslaf’s gene fluid transformation, and targeted gene awakening transformation techniques.
Without S Bacteria Antibody, these three technologies could raise the gene awakening rate of ordinary people to the level of 28-30%.
Later, these three techniques were replaced by the invincible S Bacteria Antibody, and without the fertile ground of their birth, they were lost in the long river of history.
Although Harrison Clarkhadn’t systematically learned these pieces of knowledge, he had so understanding of them.
Now in a sense, he can also be considered a scholar. In his mind, he has selectively morized so of the major dical and biological research breakthroughs from the middle and late 21st century, organized by the History Institute.
He will first present a few key core technologies, including academic achievents related to tackling critical illnesses such as lung cancer, liver cancer, AIDS, and ALS, which will be given to Lamont-Nigel Ramsey.
“Infinite Base Pairs – On the Essence of Genetic Information” and research on silent genes for Jas Amino Acid will be given to Ellen Elvin.
With Ellen’s capabilities and Harrison Clark’s direct guidance, completing the first half of the work is no problem, while the second half belongs to the truly epoch-making technological breakthrough, which is as much as seven hundred years ahead of the previous tiline.
Harrison Clark doesn’t expect Eilen to succeed, but as long as he tries, it can be considered a highlight in history.
In the future, it is possible that soone will inherit this path and eventually bring Jas Amino Acid back from the lost history several hundred years ahead of ti.
Jas Amino Acid has its drawbacks, it suppresses emotions when improving attention, and becos an accomplice of the invaders when infiltrated with “Song of the Wilderness.”
However, after “Song of the Wilderness” is contained, the disadvantages of Jas Amino Acid disappear, leaving only benefits.
Harrison Clark will also include the research and developnt intentions of gene fluid and awakening transformation technology in the future “Madman’s Conjecture Collection,” as for whether they can succeed in the end and what consequences they will have, will be seen later.
Of course, this matter must be done carefully.
He has never implented such significant changes to the essence of humanity before, and the future has beco elusive again.
Harrison Clark is not afraid of failure; he can write it into the brocade pouch and implents it next month. If sothing goes wrong, he can redy it if he returns and sees the situation is wrong.
However, if he wins the gamble, he can imagine what will happen.
With the combination of three self-developed gene awakening technologies and the special effects of S Bacteria Antibody, humanity will achieve a never- before-seen massive improvent.
When he goes back, there may be more Galactic Humans fighting side by side with him.
He might even lose his title as the strongest warrior.But so what?
Like this ti, if there were a hundred thousand Galactic human warriors, they would have won on the spot.
What Harrison Clark wanted was never to show off by fighting alone.
He wished for more powerful comrades.
At that ti, he will first use the kid’s mom’s natural intimacy, put on a display of all eighteen martial arts to win her over, then teach her to play chess, and then gradually reveal so of the invaders’ tactics to push her up little by little.
During the decisive battle, he would happily hide in the command ship as a salted fish guard, watching his comrades triumph under the kid’s mom’s command – wouldn’t that be beautiful?
Of course, this is just Harrison Clark’s beautiful vision.
After all, he himself broke the 35% limit and continued to improve. In addition to the accumulation of the above things, there was also the contribution of a large amount of particle-interference bomb radiation assimilation and the quantum stimulation brought by the stars in his mind.
The latter two things are not likely to be manufactured in advance.
Needham Brown reaching 35% was undoubtedly directly related to the Resurrection Factor, which also had a great deal of chance.
An hour later, Rainer and Chris Owen finally saw him.
Harrison Clark spread a piece of paper in front of them, “Before, I planned to add ten new projects to tackle, but now the situation has changed, and we need to add twelve projects. The two new ones are…”
After a while, he said to the two astonished n, “These two projects complent each other, each with its focus. One leans towards biology, the other towards dicine, but they both actually deal with genetic information. I will invite Eilen Elvin from Linton Research Institute and forr vice- president of the North Arican dical Science Association, Lamont-Nigel Ramsey, to lead the work. In terms of rank, both of them are under your direct jurisdiction, as the head of the Summit Research Institute, Rainer.”
Rainer hesitated slightly, “I know both of them well, and Dr. Ethan Evans is even my superior. I think their research areas are quite different from the fields I excel in. It might be better to establish the Summit Life Science Research Institute separately and let them make their decisions.”
Chen Feng shook his head, “Rainer, don’t belittle yourself, I have my reasons for letting you be their boss. It’s all about your ability and has nothing to do with your skin color. I trust you more than anyone else. With you carrying out my strategy, the plan won’t deviate from its direction. Do you understand?” “Alright, I’ll try.”
Harrison Clark: “You can’t say you’ll try, but you must do well.”
“Okay, I must do well.”
“That’s right.”
Chris Owen, who was next to him, looked a little uncomfortable when he heard Harrison Clark wanted to add more projects, and had already dug up big shots, making it inevitable for the projects to start.
In the previous plan, Whale Group had already invested a lot of money, and now Harrison Clark was coming back, even changing his mind at the last minute, Mr. Owen felt a great deal of pressure, even though Whale Group was strong, after all, such a large volu needed to support many people, and the money couldn’t be spent like this.
Harrison Clark saw his dilemma at a glance and smiled, “Mr. Owen, don’t worry. I will continue to add investnt on my side, and the share situation will be proportionally converted at that ti. No one will take advantage of anyone.”
Chris Owen’s facial expression changed several tis in a short period of ti.
He, who was always decisive, hesitated for a rare mont.
After carefully weighing the options for a long ti, he said, “I need to go out for a conference call, wait for for half an hour.”
Harrison Clark nodded: “Okay.”
As soon as Chris Owen left, Harrison Clark pulled Rainer over and opened the PowerPoint docunt he had prepared, starting to explain the ultra-pure carbon monor technology for ultra-high computing power carbon- structured computer chips.
In a sense, carbon should be considered the most complex, richest in characteristics, most variable, and most mysterious elent on Earth.
Since humans created the science of chemistry, proposed the concept of carbon elents, and went through so many years of developnt until the 21st century, our exploration of carbon elents is still quite superficial, and graphene is still a high-end technology.
The basic forces within carbon atoms are complex enough to form carbonbased life, even humans.
“The technical difficulty lies in two places. First, purification. It is difficult to achieve with our current technology. However, when our previous materials research is completed, we can improve equipnt and processes to et the standard.”
“Second, synthesizing a chip-level crystal structure that is both stable and has high electron transport capacity. This carbon-crystal structure integrated circuit is smaller in volu, with stronger and more stable electron transport capacity than monocrystalline silicon chips, and can even form large three- dinsional structures. Look closely at the molecular formula of this structure.”
Harrison Clark pointed to the PPT where he had drawn by hand a three- dinsional structure diagram of the molecular formula, different from graphite crystal, diamond crystal, and fullerene molecular structures.
Rainer pondered for a while, “The molecular formula is reasonable, but the synthesis conditions you proposed still exceed our technological level.”
Harrison Clark laughed and clicked on the next image, “This is the equipnt I designed. Take a closer look at which new materials we use in it.”
Rainer glanced and was startled, “Apart from these two special tals, the other room-temperature superconducting materials and the three materials that cannot be obtained under existing conditions are all in our previous projects.”
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