How helpful is artificial intelligence technology to industrial development? Just look at the smart unmanned factories and various models of T-1 robots.

However, for industrial development, artificial intelligence technology alone is not enough.

Because in the final analysis, these can only be considered advanced in equipment and tools.

There are two key factors in industrial production, mineral resources and energy.

There is no hurry to issue mineral resources for the time being, because the vast land of Africa is regarded as a treasure by Lu Chen.

If it doesn’t work, there are mineral resources in the ocean, but in the end it doesn’t work. There are outer space, mineral resources can always be solved.

But the prerequisite for achieving all this is that you need to have enough energy or electricity.

It is no exaggeration to say that as long as humans have enough energy, they can theoretically solve all problems.

You can see a set of formulas:

Element = Equipment power;

Equipment = Elemental Equipment Power;

Food = elemental equipment electricity;

Weapons = Elemental Equipment Power:

Material = elemental equipment power;

Girl = elemental equipment electricity;

Ahem, in short, with enough energy, humans have infinite possibilities.

Judging from the current scientific development level, there is a technical solution that is said to be still fifty years away, which can realize the dream of nearly unlimited energy for mankind.

That is controlled nuclear fusion technology.

The future of this technology is really bright.

Because nothing else, compared with fission-type nuclear power plants, controlled nuclear fusion materials are really too common.

There are approximately 270 trillion tons of heavy and super-heavy hydrogen stored in the current ocean.

With the current level of human development, if you want to use up these resources, you know how long it will take to use them.

But, I'm afraid of anything.

Not to mention how difficult it is to achieve cloning nuclear fusion, it is difficult to just extract deuterium and tritium from the ocean.

It’s not that it can’t be extracted, but that the cost of extracting is too high.

If a technology is invested more than output, it proves that it is meaningless, at least until humans consume existing fossil fuels and other energy sources.

The same is true for controlled nuclear fusion.

When it comes to controlled nuclear fusion, we have to talk about one thing, the q value.

What is a q value? Simply put, it is the ratio of output energy to input energy.

That's right, controlled nuclear fusion requires energy investment. As we all know, nuclear fusion requires an environment of ultra-high temperature and ultra-high pressure.

To achieve this environment, energy is required.

Generally speaking.

q>0, realize fusion reaction, but it doesn't make any sense.

q>1.0, the output energy is greater than the input energy, "break-even", but it is still useless, because humans can only boil water and convert this output energy into electricity, which will cost more than half of it.

q>2.5, after the output energy is converted into electricity, it is still greater than the output energy, making a practical breakthrough, but compared with other power generation methods, you still have huge losses. Unless you have to force it, a fool will use this method to generate electricity.

q>50, after the output energy is converted into electricity, it can be profitable and has the possibility of commercialization.

Here, congratulations, you can finally eliminate thermal power generation and fission power generation and replace them with clean and pollution-free fusion energy.

After talking about the q value, let’s talk about the current level of major countries in the field of controlled nuclear fusion. The world’s hegemony, the q value is 0.3, the q value of China has not been announced less than 0.5, and the q value of Sakura Country is 0.25. As for other countries, none of them has exceeded 0.5.

This level means that the fusion reaction is temporarily realized, but it has no practical significance.

This is still the level of the most powerful countries in the world.

As for those small countries, let’s talk about the technical solutions for controlled nuclear fusion.

Currently, there are three controlled nuclear fusion methods that humans recognize.

The first is gravitational constraint nuclear fusion represented by the sun.

The second type is magnetically constrained nuclear fusion with the direction of increasing temperature.

The third type is inertia-constrained nuclear fusion with increasing density as the direction.

The first is to pass directly in these three ways.

Just kidding, humans don’t even understand what gravity is, so how can they be used?

The remaining two solutions have been developed in various countries, such as the imitation device and the tocmak device, which are all derivative devices of magnetic constraint solutions.

However, there is no breakthrough research. Not to mention that the q value exceeds 50 and is commercialized, even 1 that reaches the "budget balance" cannot be achieved.

Lu Chen was also quite confident before. If various countries can’t do it, it doesn’t mean that he can’t do it either with a cheater.

That's right, how could he not combine the high-end thing like controlled nuclear fusion?

But the result is cruel. Since Lu Chen obtained the technology editor, the first time that he had researched was three question marks.

In desperation, Lu Chen had no choice but to cancel this research and turn the Academy of Civilized Sciences to the study of room-temperature superconducting materials.

That's right, the direction Lu Chen is about to go is the direction of magnetic constraint.

Room temperature superconducting materials are one of the key materials to achieve magnetic constraints.

However, the difficulty of room temperature superconducting materials is no exaggeration to say that it is no worse than controlled nuclear fusion.

It's also an almost unsolvable thing.

Without rebellion, Lu Chen had to temporarily shelve these two projects and only established a room-temperature superconducting materials research center in the Academy of Civilized Sciences.

Let them try to do this research, but Lu Chen himself did not have much hope.

Because these two technologies are technologies that Lu Chen encountered that even a technology editor could not solve.

Of course, it may not be that the technology editor cannot solve it, but that these two technologies have requirements for the level of the technology editor.

You know, until now, Lu Chen has not upgraded all disciplines in the technology editor to level lv1.

It is true that there are reasons why he is unable to do anything about his clone, but after all, he is still lazy in improving the level of technology editors.

Thinking of this, Lu Chen ordered Ling to open a hidden t-1 alloy secret door on the back wall of the office, and opened three secret doors in succession. Finally, he took out the technology editor placed in the safe in the secret room.

Open the Technology Editor, although the database above has changed compared to before, it is not too big.

a. Mathematics: lv1(0/1000)

b. Physics: lv1(0/1000)

c.Chemistry:lv1(0/1000)

d. Biology: lv1(0/1000)

e. Materials: lv1(0/1000)

f. Energy: lv1(0/1000)

g.Informatics: lv1(500/1000)

h. Engineering: lv0(95/100)

If you have to talk about changes, it is the subject of chemistry, which has changed from less than 10 points of experience to the current lv1.

In addition, there is no big change in mathematics and physics that achieve lv1, because these two disciplines have already had 99 experiences long ago.

From this point of view, the technology editor is still one engineering short of all, and it has reached level lv1.

I don’t know if any changes will happen after all reaching lv1?

For no reason, this thought suddenly appeared in Lu Chen's mind.

But if you think about it carefully, it is not impossible. Perhaps... After the science and technology editor reaches lv1 in all disciplines, changes will be made in improving scientific research capabilities?

In this way, wouldn’t he be able to research the two technologies of controlled nuclear fusion and room temperature superconducting materials?

Lu Chen thinks this way, but it is not completely unfounded.

Because there has been a change in the technology editor.

Speaking of which, it was when Lu Chen was developing Chensheng Technology, when he upgraded informatics to lv1, which was also the first time that the lv1-level discipline appeared in the technology editor.

After that, the technology editor that could only conduct one technical research became able to conduct two technical research at the same time, and its research capabilities doubled.

And now, if all disciplines are upgraded to lv1, will there be new changes?
Chapter completed!