I’m talking about basic science.
It’s not just about technology and innovation.
I have to mention the joke of the “Median across the river”.
It was a joke.
But it also provides a general overview of how science and technology have developed over the decades.
But after decades of touching, will the Emperor be able to touch bald? What if it’s bald?
It’s a big deal. Let’s start from the beginning.
With all the wrong modern technology, individuals think there are so many faults.
The first step is to start with the theory of the big one that has not yet been validated.
The basic particles and the basic forces are formed by string.
The particles form atoms by their power.
And atoms form the substance.
Material formation material,
Manufacturing industries such as materials, chemicals, machinery, electricity etc. were supported.
This big piece is kind of being rubbed together, and I call it the first big piece of modern technology.
The first big plate.
Although there are still a large number of gaps, there are no obvious faults overall, so the chip text can start with electronic properties and continue to speak of computer principles.
However, humans are not in a position to begin with a chemical reaction by strictly deduce cell activity.
So, from matter to life, the first fault of modern technology emerged.
It’s more consistent to go around faults, from cells to tissues, to individual life.
Industries such as biology, medicine, nutrition and agronomy (generally referred to here as biology and medicine) have been strengthened and constitute the second largest building block of modern technology.
The second big plate.
Self-contained systems, mostly macro-employer lessons learned, are rarely closely micro-processed.
For example, when a virus enters the body, the body activates the immune system, and biologists can describe the immune response process with full confidence.
However, no one can write down the response equations of these cell movements to the point that many of the melon eaters have been wondering whether the organisms are chemically driven.
The next fault is even more ridiculous: from life to thought.
From the beginning of a fertilized egg, the cells grow and think, and when the brain thinks, the human being becomes human, it becomes complicated.
A whole bunch of ghost-born people have come together to form a community that has produced psychology, sociology, political science, economics, education, religious culture…
The third big plate.
The law is more dependent on macro-practical summaries.
No one can deduce individual behaviour from the physico-chemical reaction of the brain, and then predict group behaviour and eventually formulate policy.
Nor is it possible to specify precisely which chemical reactions control human personality and IQ.
Or a three-year-old hit would have an impact on his future growth.
In the nature of physics, which is a big deal, it is necessary to break all barriers and to unify physics, biology and sociology.
The first physicist to blow the horn of Quantum Mechanicalism, Shertein, is the first to say “What’s Life: The Physics of Living Cells.”
The core idea is that all laws that operate in life must conform to basic physical laws.
Unfortunately, the biology, medicine, and even chemistry of that age were like children’s play, and the disease depended on fate.
This has led many scientists to believe that life is a special phenomenon independent of physico-chemical patterns.
This topic, a century or 200 years ago, is still on the rise, except for the argument that the two sides have changed from scientists to users.
It’s a good thing that molecular biology comes late, like a lightning in the dark.
Efforts to break through the barriers between the three plates and try to clarify the essence of the phenomenon at the molecular level took the first step of a long journey.
Two examples.
Reductions in the brain of 5-Oxyxamine can be particularly sensitive to pessimism, manifested in anxiety and depression;
The increase in 5-Oxylene-Photamine (H-H-P-H-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-P-E-P-E-P-P-P-P-E-E-P-P-P-E-P-P-E-E-E-E-P-D-D
The lack of adrenalin can lead to weak will, low moods, retarded mentalities and commonly referred to as lazyness;
And enough adrenalin can increase brain concentration and judgment and make people work.
If this path goes all the way to the end, it looks forward to what human beings look like in 10,000 years, and it is not clear if IQ character can be predetermined.
So we’re gonna have to talk to each other about the three plates, first the first one with the oil-purified light.
We have to keep this conversation longer.
The first industrial revolution, the technology was a steam engine and the theory was thermodynamic.
Theories and technologies are almost non-sequenced and, to say the least, the thermodynamic theory grew up in the revolution.
The second industrial revolution, technology is electrical engineering and the theory is electromagnetic magnetism.
In 1831, Faraday discovered electromagnetic induction (theory),
In 1866 Siemens invented the first practical generator (technology).
In 1865, Maxwell unified electromagnetics (theory),
In 1895, Marconi carried out his first radio communication (technology).
Theoretically and technically separated for 30 years.
The third industrial revolution, representing technology is computer and theory is quantum mechanics.
In 1900, Planck introduced the quantum hypothesis.
In 1956, the first transistor computer of mankind was born, 50 years apart.
It’s a little far-fetched, after all, 20 or 30 years of learning from quantum power, but let’s just leave it alone.
The fourth industrial revolution, with no iconic technology to stop it,
What kind of atomic energy, new materials, space, nanons, organisms, artificial intelligence comes together.
Whether or not a revolution is always controversial.
As for the theory of revolution, it’s mostly quantum theory.
With the exception of biotechnology, the theoretical basis of biotechnology is clearly not physics, but also the faults.
In the pre-industrial era, most of the technology is mechanical engineering and metallurgy, and the theory is mainly mechanics and chemistry, and it is clear that technology precedes theory.
Guys, do you see a pattern?
The revolution has come to this, and we count the achievements of the revolution.
First revolution, more radical.
The core is the transformation of chemical energy into mechanical energy, which is commonly referred to as heaters, except for steam engines.
It also includes a variety of “machines” such as later motors, gas turbines and internal combustion engines.
After 200 years, the heater is almost at the end of the day.
The essence of the chemical reaction is that of the outer electron that sets atoms.
So far, no matter how much fuel is spent, there is so much energy in the outer electron that it is difficult to increase significantly.
Unless you go to the nuclear core inside, it becomes atomic, commonly known as nuclear, not chemical.
The second revolution, which had already ended, was then taken by the third.
As a theory 150 years ago, electromagnetics couldn’t extract the oil, all by new material and semiconductor running.
At the moment, the semiconductor itself was running to the end, and electromagnetics had to get off the station.
The third revolution, in fact, had a lot of content, but the core was material.
The material theory is still quenching the quantum theory.
While there are many potentials, the end is already visible.
So we were forced to start the second battle of quantum mechanics.
“Quantum mechanics” is now called “quantum technology”, quantum computers, quantum communications, etc.
However, progress was far less easy than in the past.
Next, are there any new physics theories? There is, but there’s no way to extract it.
The theory of relativism and quantum mechanics, which today can only be calibrated and astronomical in high-speed scenarios, offer no new production technologies at all.
The windows were opened for a century, but the door to the oil was not yet open.
What’s more than relativity? There’s another, standard particle model.
The standard model of fame, when it comes to historical status, is no less than quantum mechanics, and more importantly, oil and water appear to be more than quantum mechanics.
Here’s my personal point.
In ancient times without scientific thought, technology can flourish.
But by the time the first industrial revolution took place, there was less and less good to pick up money.
In the future, the time lag between theory and technology is increasing.
The standard model begins with the 1954 Yang Jinning-Mirs theory, which is the most popular in the world.
Until now about 65 years ago,
From the previous revolutionary pattern, it seemed that the gestation time was almost on fire, not to the oil-grubting stage.
But from a different perspective, the theory and technology are not in the middle of waiting, and there is a series of little theories.
Quantum mechanics was just a math game when they were out. There was no oil.
It’s not until it’s got the theory to find this big oil tank.
The computer was brought out, and the whole process was consistent.
Introspective standard model, in the ’70s, the theory was alive.
Over the next 50 years, the experiment has progressed, and the theory has entered a phase-out.
In other words, just wait.
The stagnating basic theory will soon lead to a lack of power on the first plate immediately next to it.
The technological branches of the first two revolutions began to shut down, and the third revolution, which brought people to fly, was not encouraging.
The semiconductor ran to 2030 and almost dried up the theory.
It appears that there will be an unforeseeable gap between old and new theories, at which point the first plate of the technological Big Bang enters a phase-out estimated to be an approximate event.
But there’s still something to be desired, in case the standard model can squeeze the oil.
So this is the first plate of the so-called oil-purified light, and the second plate of the front.
The second plate.
It’s a little far from basic physics.
More importantly, the second plate’s biomedicine is too early.
It’s more than our first phase of socialism.
So it’s not obvious that it’s affected by the physics gap.
Early medicine is a brutal human experiment, like an operating room or a slaughterhouse.
Until the ’50s, marked by the discovery of DNA, the double spiral structure, molecular biology began to emerge.
Now, biomedicine is looking for Sunshine Avenue.
In a sense, biotechnology alone can sustain a technological revolution.
New theory, new technology,
However, the achievements have been a little chilly and have not led to an end.
How cold?
In 2020, the Nobel Prize for Medicine was awarded for hepatitis C work.
As you will note, hepatitis C is an almost 100 per cent cure for chronic diseases.
In other words, healing a chronic disease is a Nobel Prize-level achievement.
Modern medicine can only alleviate most chronic diseases, and the rest depends on the patient ‘ s self-healing.
Let’s add some interesting examples.
Biomedicine is relatively easy to publish, and the students of theoretical physics are blinded.
Biology is relatively easy to fake, because the experiment is too repetitive, so if you bite the test, the sow will fly away, and nobody can categorically deny it.
The results of bio-medicine research, especially nutrition, are often repeatedly overturned.
It is also a sign that biomedicine is still developing rapidly and that there is great potential for the future.
Despite having spent half a century on Sunshine Boulevard,
From chemical reactions to the birth of life, there are still 18,000 miles between them.
The machine that brings together the highest technology of all mankind is far less complex than a small cell.
The good news is,
All the patterns that biology has found are within known physical rules.
Logically speaking, it’s called a pickle.
Biology is like a complex N dollar and N sub-mode, and at least the title is clear, but it’s a little difficult.
It was to be hoped that, as the means of solving the problem increased, more and more answers would be found.
Unlike today’s physics, there’s a lot of gibberish in the papers.
According to the recent Nobel Prize for Chemistry, the cytology of genetic editing, the directional evolution of enzymes, high-resolution structure determination of biomolecules, and the restoration of DNA…
More than half of the prize has been taken over by biology, which means that biology is trying to move in the direction of chemistry.
From my shallow learning point of view, there’s enough space on the first plate for biology to flourish for many years, at least for cancer and most chronic diseases.
Suppose in the future, the gap between biology and chemistry is closed and the two plates are integrated.
Nothing else.
I’ll borrow it for another 500 years!
Biology is still so early.
To solve the third plate from a molecular biology point of view, it’s obvious that it’s a dream.
The so-called brain wave analysis and brain-engineer interface are still at the level of alchemy.
However, the rise of big data in recent years has brought some thought to the plate.
To give an example to friends in education.
In the United States, there is a statistic that, before the age of four, poor children were less than 30 million words than rich children because their parents were busy.
These 30 million words make the brain of a rich child better developed and more intelligent, making a small contribution to stratification.
So, the traditional virtues of Chinese parents who like to talk cannot be lost!
In view of the fact that the third block is so far away from basic science, let’s leave it alone.
So far the subject has been peaceful, and we wise men have been like this for 200,000 years, somewhat ashamed.
But the topic within the wise is much more exciting.
It’s about the core technology.
Some say that China hangs the West, others say that the West is China.
Both sides have been scrambling and turning their heads around with me and the melon eaters.
It’s a little more technical than a girlfriend, but if you put your time and money, it’ll pay off.
Scientific research is a demand-driven test error activity, which is summarised by only one iron law: technology = time x money.
Believe me, as long as it doesn’t go against the laws of physics, there’s no technology that can stop the money offensive.
So using this formula, the calculus method is to compute the total amount of technology in each country, and to be more realistic.
This is the scientific input of countries over the years.
Purple is beautiful, steady, and time x money is about 14,600.
Red Line China, with a single-year burner on a scale higher than Omei 28 is second in line.
But there’s a little bit of history, and time and money is about 4500.
Taking into account the purchasing power of the renminbi, low-cost scientific dogs and quail, it is proposed to increase to 8000.
Blue Line Omei, 10200.
And here’s a picture of Japan, Germany, Korea, France.
In turn, 5,000,3200,1200 1900.
The rest are largely flat, including the two hooligans in the top map, the Great Empire and the Fur.
Although the method is a little funny, it leads to two conclusions:
First, China ‘ s overall technological power is no longer lost to Japan.
I’m sure it’ll blow up.
No, there’s a lot of technology in Japan.
Why can’t we lose Japan?
Yes, but there are a lot of technology in China, too.
Japan and the Nobel Prize?
This measure is the “scientific” achievement of decades ago, not the current “technology” level.
Indeed, it is difficult to find data to prove that “Japan’s scientific research is ahead of China” from any scientific indicator.
Second, the gap between China and America is still huge.
China and the United States of America are Western leaders, and the United States and Europe are three times as many as China.
We have certainly developed a lot of technology over the past few years, which has spoiled the taste of the melon and created an invincible illusion.
In fact, China is still in the process of catching up.
“China is developing rapidly, but still has a large gap with developed countries.”
This phrase will last at least another 10 years.
It’s done. We’ll take care of it.
Board one: Know what it is, but don’t know how to make it.
There are two kinds of technology: one is easy and the other is not easy.
First of all, it’s easy.
In the wake of previous revolutions, many theories matured, resulting in a large amount of mature technology deposited on the first plate.
Like well-established general mechanics, so, bikes have been this structure for 100 years, tables and chairs for 1,000 years.
But these old technologies can create new technologies through a clever combination.
This technology is often expected because it has a sophisticated theoretical background.
If you can’t, you can burn more money.
Of course, it’s easier to get up.
For example, a bridge of one-way martial arts.
Take every piece of this device and take every detail down.
A bridge is not difficult for a few industrial powers, but can it be more difficult than a carrier?
So there’s nothing to be proud of?
She just doesn’t want to play!
If you say so, it’s no big deal about the American moon.
This argument is an underestimation of the importance of demand for technology.
It’s like a smart kid gets 60 points, not to say that he just doesn’t want to study, or it’s gonna be first.
As long as this situation lasts for several years, the skills of workers and the chain of upstream and downstream industries will slowly deteriorate, and when advanced examinations arrive, it will not be enough to be smart alone.
A perfect combination of needs and technologies is more important than a temporary technological lead.
It is on the basis of the world’s most vibrant industrial needs that China has created various applications.
Not to mention the castle or the original, but to the extent that it can be taken in a short time, it’s taken.
It is almost equal to, and even greater than, the entire foreign country.
Although technology like this is not difficult for the US Emperor, it is not difficult for the US to be able to use it.
But the demand behind them is not easy.
The resulting industrial system has become the biggest barrier to technology.
Holding the world ‘ s manufacturing industry in half the world is a vital presence, regardless of the product produced.
In my view, manufacturing hegemony is even more meaningful than financial hegemony.
The 16th century of Spain.
As the first global ruler in human history,
Spain, with its invincible fleet, plundered American gold and silver, bought goods from various countries and printed American currency.
The United States dollar currently accounts for about 60 per cent of global currency reserves, and Spain controlled 80 per cent of global gold and silver in that year.
I’m used to lying around and making money and I don’t want to work.
Spain was quickly left unmanageable, even with large quantities of out-of-pocket weapons and a fast decline in industry.
It’s just that you’ve been working all day and all night in France to make money for your family.
It seems unfair, but it really drives business.
In the end, Britain took the lead in the industrial revolution, and the Spanish throne was given.
Note that this is about history, rejection and current international relations.
The second technique is not easy.
As a chaser, you have to have a chaser mentality.
First, it must be technology that can be taken off in a short time, then it’s technology that’s grown over time.
What technology takes a long time?
Most are theories that are not sufficiently mature and rely on experience-building technologies.
Typical: Molecular Dynamics of the First Principle.
The term is a bit obnoxious.
From the very nature of a single atom, the full properties of the whole material are calculated.
What’s the point now?
I’ve mentioned it before.
Even if 10 of the simplest hydrogen atoms are mixed, it is almost impossible to calculate their interactions.
It’s a very clever thing to say about a little fault between physics and materials.
Of course, faults mean potential.
The development of new materials is equivalent to gold mining in faults.
Without mature theoretical guidance, it would have taken a long time to try it with a round of fire money.
It’s actually a lot of stuff, and you’re working on it, and it turns out it’s all material technology.
The machine-bed, called the “mother of industry”, can only look to Japan, Germany and Switzerland.
Thermal deformations resulting from friction of the main axis and bearings, as well as wear and tear of the blade, can lead to processing errors that can only be relied on for material upgrading.
Hydraulic systems are structures like jacks, U.S.-Japan-Germany.
Where is it?
Seals are weak and hydraulic fluids are easily released;
Hydraulic fluids are weak, heat swelling and cooling affect accuracy, etc.
This is clearly also a matter of material.
The engine of the aircraft, the turbo leaves were not strong enough and the gas door was sorely broken.
Material issues.
Plugs, commonly known as screws, extreme conditions of high temperature and high pressure corrosiveness that few families can bear.
Material issues.
Semiconductor chips, and more importantly, materials in stacks.
Here’s a wrap:
Basic materials such as these, which have commercial needs, naturally leave the West open for money, and the potential for material science is still growing, so most of the West remains ahead.
However, there have been some changes in the situation with regard to material in specific areas.
Rare earth permagnetics, which are magnets made of rare earth, are of great use.
China has a number of high-grade rare-earth mines, and rare-earth processing technologies are absolutely at the forefront, and even the American Empire’s rare-earth industry has been crushed.
So the technology associated with “magnetic” also has to hold our thighs.
For example, magnetically restrained nuclear fusion parts have been exported, and space dark matter detection is a space project with the United States and the United States.
Non-linear optical crystals, core parts of a laser.
In 2009, China imposed an embargo on the US Empire.
In 2016, the US Emperor broke the Chinese technology blockade.
However, China has taken the opportunity to move on to another generation.
The United States had accused China of blinding its satellite with lasers, and officials had occasionally leaked a few laser-resilient photographs, which should look good.
Let’s get another one:
While this type of business is of little commercial value, material of high military and scientific value is clearly more expensive in China, so many have already come forward.
Then the question is, why is the material so difficult?
I’ve seen it all before. The ingredients of tomato fried eggs can tell you, but your cooking is not as good as mine.
For example, South Korea was banned from the Japanese embargo on electro-grade hydrofluric acid in the past few days.
Parameters clearly tell you, 11 degrees of purity.
When a piece of material is in hand, the ingredients and the proportion are measured, and there are only a few meals.
Further, the process was a little more complicated to know the sequencing rules between the different atoms, but it was largely felt over a few days.
Do you think this is how the castle is done?
No, this is just the beginning.
You have to find a way to put different atoms in a particular order, which is called core technology.
Since molecular dynamics are similar to fortune-tellers, theoretical calculations could not have tried more than a few times, all of which are hard work for money.
Although the American emperor in general is still in the lead, the existing theoretical space is no longer sufficient, so the American emperor is very nervous by the people behind him.
There are a lot of things like “moleculodynamics” that have to be done.
For example, “aerodynamics”, the branch of hydrodynamics, and “the top of the top of the top.”
This guy is almost all an empirical formula, and he’s trying to save a lot of data and come up with a formula that doesn’t matter.
But if a flying vehicle wants to be in the atmosphere, it has to consider aerodynamics.
It’s like material science, it’s mostly a test.
It’s a good thing that the people of Money-Sen have a great family.
East Wind 17, 21, 26 unique ballistics, transports a 20-steal, destroys a 20-sonic hypervelocity…
Be modest, this piece, we don’t lose America.
This is how the first plate competes.
The theory of maturity is basically dry, and there is still room to hide, but China is in the back.
As far as the rules are concerned, we’re all being impulsive.
Another example is fusion.
Everything you see in your eyes on Earth, atoms and atoms are connected by chemical keys.
This connection energy is about 10v.
And the neutron energy generated by fusion is 14 trillion ev, one trillion times less.
So, once the fusion response is activated, the cavity wall material will be hit by a neutron of 14 trillions.
Can you get a piece of material that can exceed 100 trillion? It’s only in science fiction.
Panel 2: Know how to make it, but not what it is.
It’s a brutal division of biology and medicine.
Thanks to the large amounts of money that have been burned in recent years, China’s biology soon repaid its historical debt, after all, with only half a century’s debt in molecular biology.
We’ve travelled 70% of the way, and we’ve kept up with it, and sometimes we can take the lead, and in a few years we’ll have some good results.
But for now,
The clitorisin of 1965, perhaps the largest contribution to biology so far in China, was the first time that humans artificially synthesized active proteins.
Although medicine is also about biology, it’s not about biology.
Medicine is another scene compared to fast-growing biology.
Because medicine is of great commercial value, we can’t even see the size of the Western burner.
As a result, there are no taillights for achievements and there are significant gaps.
There’s no better thing to do in the pharmaceutical world than to “prevent the disease, design a drug molecule, solve the problem.” This is the new drug.
How hard is that?
A cup of coffee, whether it causes or prevents cancer, has been raging around the globe for decades, and the conclusions have been reversed.
In the United States, it was almost mandatory for coffee to be branded as carcinogenic, and today there is no fixed number.
Coffee’s just like that, and it’s medicine?
Don’t think that they’re useless.
So new drug development can only be driven by burning money.
There’s a lot of examples of this in Cancer.
The good news is,
Once the active ingredient has been found, production is less difficult and less costly.
Even with such a shitty industrial base, San can easily take all kinds of drugs.
But the separation of drugs takes a lot of credit, and there’s only a big difference between this one and the West.
Why don’t we do it?
Actually, we do it, but only after the patent expires. It’s called a generic.
The vast majority of Chinese drugs are imitated, and we went to the pharmacy to see Lin Lin’s drug, almost none of which was originally made in China.
But we’ve found a few drug ingredients in Chinese medicine, which is a little small.
And by the way, remind your friends who love to return to nature.
In fact, as long as the door is clear, nothing is more natural than synthetic.
For example, the high rate of re-emergence of natural artemisinin treatment for malaria, followed by the scavenging of algae artemisinin and various derivatives by others, brought about the complete eradication of malaria.
Chinese medicine is the reason for the debate.
The root cause is that we can’t find what’s working and what’s actually going on.
From a modern medical point of view, it cannot be strictly proved useful.
But modern medicine doesn’t even know how to make coffee, and it’s not very flattering.
Although Chinese medicine is developing rapidly, the theoretical space ahead is still very large.
So the Emperor is still in the dust, and it looks like we’re not gonna make it in the short term.
There is a lot of strange rhetoric in the field of science.
For example, only Christian societies could conduct research, only Western institutions could do so, Chinese was not conducive to scientific research, etc.
Of these nonsense, there is only one thing that makes sense. China ‘ s academic administration is so serious that it hinders innovation.
However, despite the many problems in the scientific environment in China, this does not prevent the rapid development of technology.
The simple reason is that we’re doing research, like fighting the mountains, setting targets, taking targets, and we’re going to suffer.
Is that a good idea?
And the beautiful ones, when they are beautified,
Because the United States is already on the hill, that means there must be a way up, so the order is not completely unreasonable.
Don’t make fun of the mountains, man.
This is an advanced road to backward learning. Germany, Japan and the United States, have one count, and they have all received the name of the great powers of the mountains.
President Mao can be assured that, once China takes the lead, the United States will never be soft.
Then there was the attack on the mountain, but in the post-American era the situation was different, and no one knew if there was a way up the mountain.
In fact, many scholars now point to similar problems.
And see some policy adjustments, believe in years? Ten years? Twenty years? A new phase should be reached.
It’s not like these little chords are really a big deal.
One of the most important and unadjusted factors in scientific research is the size of the population.
To be precise, it is the size of the educated population.
Still, we’re all wise people. Don’t look down on anyone.
In the West, headed by the United States and with a Christian cultural background, the system of scientific research is essentially one and one and one.
In Holland, for example, the Emperor can buy it, just like his own.
Doesn’t Holland have a reaction?
No, because the light machine uses a lot of American technology.
In this logic, Europe and America, Japan and Australia together have a population of about 1.4 billion.
And San, he’s out of 1.3 billion.
Beyond that, there is no one-billion population group on Earth.
Twenty years ago, 80 years later, the victim of what was called the failed generation, the test education, was mocked by the happy American education.
Today, the rapid development of Chinese economic technology, 80 years later, is a major force, which at least means that our indigenous education was not a failure.
Thus, the educated population in China and the West is similar, and this is the basis of our greatest confidence in pursuing the West.
As for San, let’s go to literacy first.
As a common citizen, in addition to being a child, there is one thing that is within its power: the inclusion of public opinion.
Sometimes, technological innovation is more absurd than people think!
During the Second World War, Britain was planning to make a carrier with ice, which was not the case.
And then the engine melts the ice.
In the ’90s, the American emperor built a super-crash machine, and it took $2 billion to find out it was a bottomless hole, and then cut off the project, and $2 billion went right into the water.
The American Psychological Association had a scientific institute called the American Spiritual Institute, which raised a group of fairy and god-child with a special function and found that it was all faked and shut down.
Australian scientists have observed mystical cosmic waves on a continuous basis, causing sensations, and finally finding interference from the microwaves next door.
And it’s even more ridiculous, because the contamination of experimental cells has led people to experiment on the wrong basis, and more than 30,000 papers are in danger of being scrapped, meaning that thousands of scientists have done decades of useless work, burning billions of dollars.
There are two of us who are hotter, either large-scale crashers or burn money, or quantum communication or fraud.
In fact, original science is a big gamble. It is better to waste money in scientific research than in other places, and as long as crime and morality are not involved, we should give a more liberal atmosphere of public opinion to those who travel in the human void.
For developing countries, basic research was not a matter of urgency; industrialization was the rule. Thus, in the last few decades, China’s technological applications have been developing at a much slower pace than basic science, which is largely carried out by the US Emperor, as evidenced by the fact that scientific talent is running to the US Emperor.
In the United States, basic research accounts for 15 per cent of total R & D inputs, with two or three additional points of growth per year, the highest level of investment and output, and a steady small day.
What are we doing? According to the 2019 National Bulletin of Statistics on Investment in Science and Technology, 82.7 per cent of China’s R & D is costed by the term “experimental development”, which is officially defined as systematic work to produce new products, materials and devices, new processes, systems and services, and substantial improvements to the above-mentioned items that have been generated and established, using the knowledge available from basic research, applied research and practical experience.
In other words, most of China’s R & D has been “using existing knowledge to produce new products” at a cost, and this is a game in which “existing knowledge” is quickly drained. There’s no way. We’ll burn the money arch together.
China ‘ s funding for basic research and development has remained constant at around 5 per cent of total R & D inputs, with a surge of 22.5 per cent in 2019, a breakthrough of 6 per cent for the first time and a target of 15 per cent for 2025. China’s total R & D investment will also exceed that of the United States, which is clearly intended to carry the flag.
In conclusion, we look back to all humanity. From Newton onwards, the West, with its scientific banners, sings the praises of neoliberalism, leading humanity from the carriage of horses to the information age, with remarkable achievements. The song is clearly a little off right now, resulting in a bit of a lack of air.
China, which began with the oceanic movement, has been moving slowly for a century and a half, and has indeed become more robust. The time has come for Eastern wisdom and scientific thought to be sharpened to see if the many thousands of-year-old philosophies of philosophies will continue to lead humankind to the next stage of civilization. Case number: YX111R7q0r0
I don’t know.
Keep your eyes on the road.
