There are really hundreds of thousands of whys of the scholars who borrowed labs in the base. Since giving them particle flow weapons and materials for making metal hydrogen, problems have been endless.

Octopus is also worried about the "plot". He has to spend some time every day to answer questions and transmit new information to scholars.

Q&A is conceptualized, such as what performance is the first appearance of particle flow weapons on the battlefield, what particle acceleration is the most energy-saving, etc.

There will be more information transmitted.

Octopus is not an arms dealer, and it is impossible to complete the arms production materials that are connected to the Internet. But just like when ancient people entered the Internet period, most of them knew the mechanical principles of catapults, black gunpowder formulas, particle flow weapons, metal hydrogen and other things that were popular more than a thousand years ago, and the principles were completely transparent.

The schematic diagram of particle flow weapons is public information, but the same information will not explain why the acceleration pipeline is designed like that, and the calculation method involves certain disciplines.

The textbooks of Space University were a hundred years ago, and the theory was quite different from those of a thousand years. It was difficult for scholars to understand through the information they brought in the game, so they needed some information from other sources.

If you are an ordinary person, you can make things by drawing a cat and drawing a tiger. But this is a group of real scholars. They not only want to create it, but also want to know why they need to create it like this.

Once you truly master the principles, you will have the possibility of making improvements.

However, Octopus did not simply come to be a teacher, and he also obtained first-hand information about the Rava incident from scholars.

By the way, the external network octopus used by ancient players is not available!

It is a network system based on binary code. Although it is also included in the modern ocean of data, because only data is retained and there is no corresponding data service, it is just a piece of data garbage for most people, and it is difficult to pick out effective information from it.

In addition to using shuttle modules to screen ancient games, Octopus does not touch other data.

Ancient AI seemed to have the ability to sort, and they used it very well with external networks.

Scholars got a report on war damage for the octopus, and specially asked someone to explain to him what extent these war damage was in ancient times.

After hearing this, the octopus said... it was a bit shitty.

In addition to civilians, the total losses of fighter jets caused by Rava and Roll Ball are fifty, and the number is completely different from the eyes of scholars and octopus.

In the opinion of scholars, fifty fighter jets are almost a production chain for more than a year; in the opinion of octopus, apart from the driver's losses, they are only recyclable resources. Isn't it over after recycling and rebuilding? Even if the ancient recycling and reuse technology is not good, how much raw materials are involved?

Oh, you guys still have to charge money... that's all right.

Octopus knows what the money world looks like, and there are references outside the community, but he is not used to using money to measure time, engineering quantity, etc., and his efficiency is too low.

Putting aside the money factor, there is no difference between war machines and toys in children's hands, titanium alloys and aluminum alloys.

Of course, because there was no comprehensive automation in ancient times, the differences in brain power between people determined that many things could not be mass-produced. A group of countries on a planet further increased the difficulty of resource allocation. Maybe it is really impossible to produce.

Octopus can't help in this regard, and the production relationship is too complicated to start.

...

Earth ball, C National Academy of Sciences.

The more you come into contact with aliens, the more you feel that your former ideals still have hope.

Country C is a country established by a group of idealists. They have been bleeding and sweating for their ideals to reach today. The second place in the world is very close to the first place, the industrial output value is the first in the history of global civilization, and even changed a large number of terrain with manpower, but they feel that the ideals of the past are even farther away.

Nowadays, people say money, houses and cars, and they even feel that these things are slightly less qualified and even the meaning of living is gone.

It is precisely because of this environment that after the monster appeared, the power of Country C was very cautious in mobilizing, for fear that if one is careless, it would lead to a drastic internal change under the influence of external forces.

The concept of aliens is obviously only found in an ideal environment.

Of course, experts from the Academy of Sciences know that there is indeed no essential difference between titanium alloys and aluminum alloys. It is not that modern materials are too far-reaching, so many promising materials cannot be turned into affordable products.

Why is it related to the material learning?

Because exhaustive materials learning is too expensive, every new material with practical value needs to be accumulated for a long time to produce and accumulate the cost of the entire material development system. Even when many materials are developed, the materials research system has replaced a group of members because some of the income is insufficient.

If the earth ball can survive the monster crisis and accumulate for thousands of years, even if it moves forward without any change, people in the future will not think that titanium alloys must be better than cast iron.

Unfortunately, the hope for this "if" is a bit slim now.

Although aliens are kind-hearted, they will only provide some equipment drawings that can be made in a short period of time. Whether these things can be mass-produced on a large scale, and whether someone will use them to deal with humans after mass production are all problems that require the earth ball to solve by themselves.

Another is resources. If the earth ball wants to use resources to the limit, it will inevitably require all countries to work together, at least to meet nearly unified standards in terms of component specifications. For example, if the missile launcher is broken, it will be necessary to find the parties involved to repair it. As a result, all the parties involved have destroyed the monsters, and a bunch of missiles turned into scrap iron. Don’t you lie down and wait to die?

Unfortunately, with the current ideology of various countries, the possibility of achieving standard unification is zero.

Let’s settle for the second best, at least is it possible to save yourself in disaster?

After asking this question, the aliens went back to ask a few questions and went offline.

Questions include what size, weight of objects can be sent to the synchronous track, the current weight of the electromagnetic weapon system, the launch speed, whether the synchronous track docking can be achieved, whether the synchronous track has material replenishment capacity, etc.

The scientists and soldiers who helped operate the game were confused, but the team of experts who were specifically responsible for analyzing the micro-expressions of aliens expressed great hope.

A few hours later, the aliens went online again and took out two more sets of information!

They are the space solar energy system, the space-based weapon "Scepter of Death", and the space-based weapon "Sword Light".

The solar energy system used in space is different from the solar energy used by earth balls. In addition to using light energy, it will also mobilize the heat generated by cosmic radiation to generate secondary power, and at the same time cool the system. It is actually a comprehensive system including cooling.

The "Scepter of Death" is a space-based launcher with electromagnetic weapons as the main body. By pushing the projectiles to more than 1,000 kilometers per second, it can achieve faster ground strikes.

The height of the earth ball synchronous orbit is nearly 36,000 kilometers, and the speed of 1,000 kilometers per second. Even if the deceleration effect of outer space can be ignored, it takes more than 30 seconds to hit the target through the atmosphere. In fact, it is not particularly suitable for hitting moving objects. It also requires cooperation from the ground troops to find ways to control the moving route and speed of the monsters so that it can be used to hit monsters.

"Sword Mang" has a different concept, it is a laser platform, but the laser still reaches sufficient intensity after penetrating the atmosphere, and the power will be very high. If you discuss it for a little, you will feel that it is not possible.

On the one hand, when the energy level reaches that level, the impurities of several atoms and dust may cause the laser crystal to melt during continuous shooting; in addition, the laser is still too severely affected by the weather, and the smoke and debris generated by other weapons will affect the performance, which is a bit unreliable.

After a rough look, I decided to focus on the "Scepter of Death". This information also includes two non-direct attack warhead models, which can be used to carry nuclear warheads. Of course, the metal hydrogen bombs developed before will also be promoted together. The production and transportation systems of the two are not related and have no impact.

Because of the different material systems, the design weight provided on the data is not of reference significance. I found a discussion on building rockets. It was initially believed that at least three loads of loads must be launched to connect to the docking in order to achieve the basic function.

No one has done this in synchronous orbit docking, but Country C does have experience in low-Earth orbit docking and fully automatic docking of lunar orbits. The signal conditions of synchronous orbits are good, and as long as the error is controlled well, the difficulty will not be greater.

There was also an argument during the discussion.

Some people think that "Scepter of Death" is better in low-Earth orbit, with more than 30 tons. Not only can I find a way to launch it in one time, but it can hit the target within one second when used, which is much more reliable than putting it in a synchronous orbit. The more than 30 seconds of the synchronous orbit attack, it requires the help of a supercomputer to hit the target near it. The people responsible for seducing must also try their best to keep the planned line unchanged.

That's right, but the problem also follows.

It takes at least one hour for an artificial satellite to rotate in low-Earth orbit. In this state, the altitude is only more than 300 kilometers. Which orbit can it cover how far? The coverage area is higher when it is raised, but it rotates more slowly. How long will it take to adjust the orbit in a place that cannot be hit? How many more people will die during the process?

Second, what should I do if I put it in low-Earth orbit and get shot down by other countries? Or if other countries require support from space-based weapons, should I agree? Based on the principle of a single human being, the above must agree, but this will increase the burden of ammunition supply and equipment maintenance, and I have to build a few more. If the monsters are fought too frequently, it may not be too late for rockets to be used for production and maintenance.

Although there are defects in synchronous orbits that have too long ballistic time, it is easy to achieve no dead corners in the country and around the country because of the distance that is far enough. Moreover, the synchronous orbit is stationary in relative positions and can be on standby at any time throughout the year. In addition, there are still thin atmospheric particles in the near-Earth orbit. The lifespan of this highly disposable satellite is generally five to eight years. Synchronous orbits have more advantages in self-loss, and the disposable lifespan can be between ten to fifteen years. Many of them operate in thirty or forty years are still in good condition. Considering that the technology is not mature enough, putting it higher can eliminate some inexplicable faults.

After a round of discussion, most of them finally agreed that if there is only one, it is more appropriate to put it in the synchronous track. Let’s manage ourselves first before we have the energy to contribute to all mankind. After the entire production and supply chain is smoothed out, we will solve some problems in use, and then discuss the near-ground models.
Chapter completed!