Meteorite Survival: I Have God-Level Tips!

Chapter 187 The Vast And Magnificent Engineering Experiment 【Subscription】

In addition to the change in appearance, Chu Hua also found that this creation is different from the previous one.

That is, it is currently an unknown creation in the shape of a crescent moon, and there is a reflection of light on the surface.

This is a change that can be seen with the naked eye.

This is enough to show that the various high-tech means currently possessed by Chu Hua can already conduct various tests on this creation.

However, it is still unknown whether the results can be detected.

After all, there is a great possibility that this unknown creation is the embodiment of a high-dimensional object in three dimensions.

After confirming that there are no other dangers, the creature was pulled back to the star of Babel, and various tests were carried out again.

But after a period of time, the test results disappointed Chu Hua.

Because except for a conjecture that this is the embodiment of a high-dimensional object in the three-dimensional universe, the others are still unable to detect "August 10".

Incomprehensible, indefinable.

In the final analysis, Chu Hua's existing technology level is too low.

After confirming that he had nothing to gain, Chu Hua blocked the creation, and waited until his own microscopic technology made a breakthrough again in the future, and then conducted a rigorous analysis of this creation.

During this time, the Giant Hadron Collider, which surrounds the entire planet Babela, has been constructed.

For the next period of time, Chu Hua will stay on the planet Babel, and use the Global Giant Hadron Collider to conduct high-energy physics experiments with other new snake-man scientists.

To further explore, the cosmic technology at the microscopic level.

To break through to the fourth-level civilization, the Qu engine is necessary.

The key point of the curvature engine technology is the breakthrough at the micro level.

To discover and use space-time gravitational waves, we cannot observe them from a macroscopic perspective, but from a microscopic perspective.

to discover.

Then use it.

Decades passed by in a hurry.

In the past few decades, Chu Hua has conducted numerous hadron collision experiments using the giant Global Hadron Collider.

In the Large Hadron Collider, quarks combine with each other to form a composite particle called the hadron.

Neutrons, nucleons, protons, hyperons, and mesons all belong to this category of hadrons.

In this hadron collider, Chu Hua accelerated two mesons to an infinitely close to the speed of light, and when the two mesons collided, they tried to separate the quarks within them.

But numerous experiments have failed.

The fractional charge contained in the quark is bound to the interior of the hadron and cannot move freely from the hadron.

Chu Hua has tried countless methods, but none of them can separate the quarks inside the meson independently.

Quarks contain fractional charges, as if the gravity of the earth, for example, one quark is the earth, and the other quark is a rocket bound by the earth's gravity.

If you want to let the rocket leave the earth, you have to input energy, give the rocket a thrust, and finally let the rocket break free from the shackles of the earth and enter space.

This is probably how the separation of two quarks works.

But the problem is that once the energy is input, if the energy input to the system is not much, then it is not enough to separate out the quarks.

However, once the energy is high enough, the two quarks are separated, but because of the input energy, new quarks are created from the vacuum.

Combining with each other again, then one meson becomes two mesons.

Quarks cannot be separated.

Originally, this was the conclusion of the theory of high-energy physics in the earth age.

But to break through the existing high-energy physics foundation, we must break through this conclusion.

produce new technologies.

After decades, finally, the experiment of the Global Hadron Collider failed.

Chu Hua failed to isolate the quarks completely independently.

But in the process, Ban China came up with a new method.

The energy input by the system to separate the quarks in the muons will create new quarks in the vacuum.

When the new quarks combine with each other, they are also called mesons, a type of hadron.

In this case, Chu Hua thought, then it's better not to input energy at all.

But how can quarks be separated without inputting energy?

After countless failures, Chu Hua finally came up with a method.

Use time force.

In the universe, objects with a large enough mass will produce space-time distortions, and at this time, gravitational waves will be generated.

Chu Hua's idea is to use two objects with a large enough mass to approach each other, and then the gravitational forces on both sides will interact with each other.

At this time, another meson is intervened in it.

Let the gravitational force of two massive objects interfere with it. …

Finally, without inputting any energy, the quarks in the muons are completely separated.

This way no new quarks are created.

But how easy is it to say, how hard is it to actually do it?

To do such a test, the mass of the test target must be huge enough to generate enough gravitational force.

Moreover, the gravitational force of the two must be equal.

Otherwise, the planet that attracts the larger one will definitely shred the planet with the smaller gravitational force.

resulting in the failure of the test.

Chu Hua finally selected a galaxy 120 light-years away from him.

Within this galaxy, there are two planets of about the same mass and size.

After selecting the target, Chu Hua officially left the planet Babela with the fleet.

But he also left a stronghold here on the planet Babel.

At 99% of the speed of light, the space travel time is one hundred and twenty years, and Chu Hua himself feels eighteen years later.

Chu Hua arrived in this galaxy.

Then began to use all the resources of this galaxy to install planetary engines on the two selected planets.

Push the two planets away from the galaxy.

Because to do the test, it must be completely guaranteed that there is no other gravitational interference.

If an experiment were done in this galaxy, the gravitational force from the stars would interfere with the normal results.

In the end, it took Chu Hua another hundred years to fully install the planetary engine on the two planets, and 0.9 pushed the two planets of the same mass 13 light-years away, and found a place without other gravitational interference. cosmos space.

At this time, the formal test project can begin.

But next, the group is the hardest.

Chu Hua needs to gradually move the two planets closer to a distance where the gravitational force of the two planets is enough to work without destroying each other.

This distance is 380,000 kilometers.

After two planets with the same mass as the Earth approached each other for 380,000 kilometers, Chu Hua began to implement the always huge project.

Construct two globe belts to ensure that their gravitational forces can perform their experimental role.

Chu Hua pulled two planets with a diameter of 12,000 kilometers, equivalent to the size of the earth, to build two giant global belts.

The purpose is to separate the quarks in a meson that is extremely tiny, so tiny that it can be ignored. .

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