How the Zergs were Made

Chapter 43 - 43 Preparation



Chapter 43 - 43 Preparation

Chapter 43: Chapter 43 Preparation

"The head is big, and it needs to be designed..."

Huo Gu complained to himself depressedly, but he did not stop the design behavior. It did so as to express the tension in his heart so that he could regain his calmness.

Huo Gu didn't want to be nervous, but he couldn't be nervous. In his previous life, he was just a scholar specializing in archaeological excavations. Not to mention designing rockets, he didn't even touch the physical object!

"I'm so sorry..."

"Why didn't I write down the drawings of the International Space Center at the beginning? It was obviously on the table when I was chatting with Lao Li..."

Huo Gu looked at the cell cluster placed at the bottom of the water and shrinking into a lump of meat. In the sea of thinking, there was only a blank and strong regret.

You should know that this cell cluster is an important tool for attacking the enemy. It must be foolproof and successful at one time.

If it fails, the enemy will inevitably be vigilant and show a more crazy counterattack.

Huo Gu is not afraid of any counterattack. At worst, he will be beaten back to the microbial state. Anyway, on such a big planet, it is impossible for the enemy to hold a microscope and look for it everywhere in the ocean, right?

However, once it fails, it will be difficult to succeed next time. To a large extent, the attack is to take advantage of the relationship between the enemy and the dark, and the suddenness of the first attack.

"It's really troublesome. It's better to shoot it directly..."

"..."

Huo Gu suddenly shook his mind, and he began to think carefully about the feasibility of what he had just said.

"...shoot out...shoot..."

"Yes, I'm really a genius!"

Compared with relatively complex rockets, the structure of the shell can be said to be extremely simple, and there is no need for more advanced and complex structure shells, as long as it can detonate the internal charge and launch it by explosion.

"Anyway, there are neither people sitting in it nor precision instruments. Why should I refer to the structure of the rocket for design? It can be directly blown into the outer space of the planet in the form of an explosion like a cannonball..."

"The barrel of the launch is best tilted 45 degrees, so that it can better enter the planet's low- Earth orbit..."

"Uh-huh, that's it. The cell cluster can be designed exactly according to the style of the shell. The hard shell can be made of titanium alloy, and the barrel is the same..."

"...Is it better to add something like rivering?"

Huo Gu tried to recall his knowledge of the barrel ribore...

"The worm is to make the launching object able to maintain the rotation during the launch process, which can play a role in stabilizing the trajectory... So it seems that this is needed. Although it will reduce the initial speed a little, it is still worth it in terms of cost performance."

The way to launch the cell cluster into outer space has been determined, but Hogu is not relaxed because of this, and there are other problems that need to be solved.

"Radiation in the universe, alpha, ?, gamma rays... I don't know many radiation-proof materials, only lead, but in this way, the weight is..."

After pondering for a while, Huo Gu had no choice but to accept it.

"...Forget it, just use lead to make a mezzanine between the titanium alloy eggshells and specially seal the lead in."

The increase of meaningless weight means the reduction of meaningful weight. In another way, the quality of other things that can be carried will be reduced.

But there is no way. Cells can't adapt to the environment of radiation everywhere, which is directly related to the fact that they receive a small amount of radiation. In fact, the clouds are thick in the ancient world. Although the radiation from the sun cannot be said to be gone, it is really rare compared with the earth. It is because of this kind of less contact that cells are not in this regard. It has too good adaptability and is very prone to lesions.

After solving the radiation protection problem, it is the problem of the cosmic vacuum environment.

Although it cannot be said that there is no gas at all, the density of these gases is quite small, so small that it can be regarded as nothing. There is only one atom per cubic meter.

The strength of titanium alloy is absolutely sufficient. Although it has not actually been tested in space, Huo Gu has used the underwater water pressure to test and tripled the strength requirements of the test data. Huo Gu did not use titanium alloy alone, but also added a carbon nanofiber net to the mezzanine to improve the overall deformation. Ability.

However, even if it is strengthened like this, there is still a place on the cell cluster where Huo Gu can't let go - the eyes.

The outer part of the eye is covered with thick tempered glass. There are some interlayers in the glass, which are filled with nitric acid solution. The nitrogen dioxide in the nitric acid solution can effectively absorb all ultraviolet rays and some visible light, thus avoiding excessive ultraviolet radiation from damaging the eyes.

Next is the ability to move in outer space. In a gravity-free environment, if you want to change your position and reach the position you expected, it is quite troublesome. Huo Gu has no good way to do this. He can only design six propulsion ports in different directions on the cell cluster, with subtle angles. The adjustment is handed over to the air push.

To promote the fuel, Huo Gu decided to use liquid hydrogen, and then the oxidizer is liquid oxygen. It is not very difficult to make them. First, make oxygen and hydrogen, then use artificial water pressure to forcibly compress it into a liquid state, and then put it into a pre-made titanium alloy gas storage tank.

There is also a temperature problem. Space is absolutely zero, and that place is very cold. Although vacuum can block the heat dissipation media,

but the temperature will continue to be released in the form of thermal radiation.

"That is to say, a temperature barrier should be added to the 'cannonball'..."

So the question is over?

No, there is also a crucial problem, that is, weapons that can be used in space.

A pair of horns with titanium alloy as the skeleton is installed into the cell cluster by Huo Gu. The horn is not a simple claw, but a single molecular blade with a science fiction color, which is constrained by the electromagnetic force generated by biological current.

For Huo Gu, who can work at the molecular level, it is not difficult to make this weapon, which is equivalent to an ordinary person building a house with red bricks.

The advantages and disadvantages of the single molecular edge are obvious, that is, it needs to consume a lot of energy.

However, even if all the biological current of the cell cluster is exhausted, the single-molecular edge state can only be maintained for four seconds, and it can no longer be used in atmospheric environments, because charged particles will be adsorbed on the single-molecular edge surface because of electric field magnetism, making it gradually dull.

If the enemy is a large mechanical body, the limb can break the opponent's armor and let the cell cluster dive into the interior to destroy it.

The other weapon is a live ammunition weapon, which is filled with sodium metal. The special sandwich structure ensures that sodium and water can fully react, and metal chromium as a warhead, which can easily penetrate a ten-centimeter-thick steel plate, which is the result of the test.

The worst case is that neither weapon can destroy each other. Then, this cell cluster entering outer space will be used as a booster engine to push satellites in outer space to the surface. This is Scheme B.

Although the cell cluster is a biological tool, it is still not in line with Huo Gu's values when it is available. Therefore, Plan B will only be enabled when Plan A cannot take effect.


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