Hand rubbing nuclear fusion live in the wilderness

Chapter 352 Ready to go to China again
The launch of the zero satellite by the space shuttle continues and continues steadily.

Won sat in the control room and kept watch.

It doesn't take long for the nine satellites to be launched one by one, but the return of the space shuttle needs to wait until noon tomorrow, which is pre-set.

After waiting for all the zero satellites to be deployed, and confirming that the satellites are in orbit and deployed normally, and that the detection and communication signals are sent normally, he can leave the control room.

The remaining things can be handed over to the function chip that comes with the satellite.

Because it is in an ultra-low low-earth orbit of 160 kilometers, the zero-series satellites are much more affected by the simulated gravity of the earth than satellites with a distance of more than [-] to [-] kilometers.

Therefore, the satellite needs to keep the altitude detector running at all times, continuously sending electromagnetic wave signals to the ground and receiving them to judge its own altitude.

When the height drops to the preset critical point, the functional chip will automatically start the small electric propulsion engine at the tail.

After all the liquid xenon working fluid carried by the satellite itself is used up, more than 90.00% of these satellites will fall into the atmosphere and become a bright meteor because they cannot maintain their orbit normally.

As for the remaining [-]% probability, due to some unexpected factors, the satellite will become space junk, and it is even possible to fly to a higher orbit.

However, this probability is relatively small. After all, the orbits of the zero series satellites are too low. If the power and altitude cannot be replenished in time, it is inevitable to fall into the atmosphere.

The nine satellites were all put into orbit within one hour, and the rest of the work, establishing contact with the ground and sending back signals were all completed within the next hour.

Although the central computer uses millimeter-level chip technology, it still took on the task this time when the number of chips was sufficient. .

But that's all.

When the reconnaissance communication satellite was in operation, Won checked the operation status and overall situation of the central computing system.

When the load is the highest, it reaches about 60.00% of the overall performance, which is already a relatively high and dangerous value for a computer with poor performance.

Although the cpu load of modern home computers can easily reach more than 90.00%, even 100% operation will not crash.

But modern chips have redundant design and display pull-up design.

This means that what is displayed on the display is that the CPU load is 90.00%, but the performance index that may actually be applied is less than 70.00%.

So even if it runs to 100% for a short time, it will not crash, it will just freeze.

As for the central computer he designed, although things like chips and memory also have redundant designs, the data displayed is real.

Show how much is used.

The usage of around 60.00% five is already a heavy burden for chips, especially when the level of chip manufacturing technology is insufficient.

If it is higher, it is normal for the chip to run incorrectly, freeze, or even crash.

But fortunately, 60.00% of the usage of Five is the peak value. Only when multiple Zero satellites are connected to the central computer at the same time and need it to analyze data and feedback related commands can there be such a high usage.

After all nine satellites have been put into orbit and are in normal operation, the operating load of the central computer has been reduced to about [-]%.

This level of load is no problem for the central computer.

But from this incident, we can also see the performance of the central computer he made.

The connection of nine satellites will almost make it run at full capacity. If there are more, Han Yuan has no doubt that it will crash.

Fortunately, the central computer can only be used temporarily, and Won is not prepared to process all subsequent satellites through this computer.

In fact, after the completion of this satellite launch and the return of space shuttle zero, he will leave for Huaguo again, to the Taishan sub-base.

The remaining satellite launches will be completed there.

Including part of the task of simulating the collection of planetary resources, he will also complete it in Huaguo.

Because if you want to collect all the elements on the earth, you will inevitably travel to many places, including many rare metals.

When it comes to rare metals, everyone knows that Huaguo is the country with the most rare metal mines in the world.

Its share has reached more than 40.00% of the world's currently proven total, and the total amount has reached an astonishing 21000 million tons.

So after handing over the satellite launch task to Xiaoqi, the smart housekeeper at the Taishan base, he will go to Baiyun Obo in Baotou, Inner Mongolia.

This is one of the places where Huaguo's rare earth mines are relatively concentrated.

More importantly, many of the rare earth mines in Baiyun Obo are shallow rare earth mines, which are equivalent to being exposed on the surface, which is convenient for him to mine.

Not only rare earth mines, but also various other mineral information and geographical locations. Before the start of this Starlink mission, Korean won was collected in reality.

It’s just that the locations of various minerals that may simulate the earth and the real earth may be different.

If it was different, it would be a bit troublesome for him to collect all the elements on this planet.

Even though he has a metal mine detector, it's still too big for a planet, and the metal mineral detector can only detect metal ore.

There are many other minerals that can only be discerned with the naked eye and experience.

Although Starlink mission branch 50.00 'resource collection' only requires him to collect more than [-]% of the original ecological elements on the current planet, Won still wants to collect as much as possible.

It would be best if the entire periodic table of elements could be collected, but that's obviously not very obvious.

In addition, the resource collection task also requires him to smelt and synthesize three unnatural elements, which is the most troublesome thing.

Unnatural elements, this kind of thing, only those man-made radioactive elements meet the requirements.

Such as americium, curium, berkelium, californium, einsteinium and so on.

These things are all artificial elements, and the manufacturing methods are basically the same.

The key to man-made elements is to use the nucleus of one element as a "cannonball" to bombard the nucleus of another element.

When its energy is enough to "break through" the shell of the nucleus and fuse into a new nucleus, the number of protons changes and a new element is created.

The change of the proton number of an artificial element strictly obeys the principle of addition.

比如用硼（原子序数为5）轰击锎（原子序数为98），两者相加，就可以得到103号元素铹；用铬（原子序数为24）轰击铅（原子序数为82）得到106号元素。

And the formed rhodium, by definition, are all man-made and unnatural elements, which are recognized by this system, and Han Yuan asked about it before.

For this resource collection task, how to prepare three such elements is also a troublesome point, after all, he does not have high-tech equipment such as a particle accelerator.

After confirming that all nine reconnaissance communication satellites were in orbit normally and completed signal communication and orbit adjustment, Won left the control room.

There is no more work for him here, the satellites are all in normal operation, and the space shuttle zero will return at noon tomorrow.

During this time, he can be busy with other things, such as checking some error logs of the space shuttle launch and satellite orbiting, analyzing them, and then making improvements.

In addition, the preparatory work for the resource collection task has also begun.

At least he has to list the resources he has collected and possessed so far.

This system is rather pitiful. In the part of the resource collection branch task, it only shows the progress of the percentage, and does not give the specific types of resources.

Thinking of this, Won's conscious control opened the task panel, which showed the completion status of various tasks in the Starlink mission.

[Starlink Mission--Main Mission: Information Age]

[Starlink mission branch chain mission [-]: Industrial upgrade (completed)]

[Starlink mission branch chain mission [-]: Resource collection]

"Resource collection Starlink mission requirements: Collect more than 50.00% of the original ecological elements on the current planet in two years and smelt and synthesize three unnatural elements."

"The current resource collection task accounts for 26.73% of element collection, and the smelting progress of three unnatural elements is 0/3."

[Starlink mission branch chain mission [-]: Planetary communication]

"The mission requirements of the planetary communication branch chain: to manufacture a communicable artificial satellite within two years, send it into the low-earth orbit, and complete the communication between the low-earth orbit and the ground."

"The current basic task of the planetary communication mission has been completed, and the number of communication satellites currently available is '9', and additional tasks are in progress."

[Starlink mission branch chain mission [-]: Guardian of civilization. 】

On the virtual screen in front of him, there are relatively clear progress marks for the two tasks he is doing.

The resource collection task has completed half of the basic task.

The basic mission of the planetary communication mission has been completed, and now the additional mission is being carried out. As for the specific reward, it depends on how many satellites he can send into the sky in the second half of the year.

Of course, the launch of satellites is not only related to the extra rewards of the planetary communication mission, but also related to the completion of the main mission of the Starlink mission - the information age.

[Starlink Mission--Main Mission: Information Age]

"The main mission requirements of the Starlink mission in the information age: successfully enter the information age within three years (the information network is required to cover half of the territory of the simulated planet), and the live broadcast time is not less than eight hours a day."

The main task of the Starlink mission requires the information network to cover half of the entire simulated planet, but this task does not require the use of satellites to complete.

In another way, this condition of the main task can also be completed.

For example, build long-wave signal towers around the simulated planet.

It doesn't take much in numbers, especially with his ability to erect long-wave signal towers on high mountain peaks.

Based on the average mountain height of 5000 meters, less than ten signal towers are enough to cover half of the entire planet.

Of course, in fact, because of the uneven distribution of mountains, the required number may be more.

But compared to launching satellites to cover the global signal, it is still much simpler and more time-saving.

Unless he shoots three stars and sends the satellite to a geosynchronous orbit of more than [-] kilometers, in that case, three geosynchronous orbits are enough to cover most of the places except the North and South Poles.

But there is no need to launch high-orbit satellites for the same things that can be done in near-geosynchronous orbit, which is a waste of resources.

The saved resources are enough for him to launch dozens of satellites in near-geosynchronous orbit and get more extra rewards. Everyone knows how to choose.

He did not choose to build a long-wave signal tower to cover the whole world to form a communication network. The main reason is that there are additional rewards for communication tasks.

After glancing at the task information panel, Han Yuan forked off the virtual screen and walked towards the studio.

After rummaging through the wall cabinet, he found some materials. These rolled papers were all recorded on the basic materials.

It has been useful to make statistics and records of daily work for a long time. After looking through the data, the Korean won came to the storage room again.

A few years have passed, and the recorded materials have been changed from batch to batch. The workshop is not very big, and it has long been impossible to store so many materials.

Most of the early materials were transferred to a dedicated storage room.

Because this data storage room is used to preserve paper materials, conditions such as temperature, humidity, and fire prevention are almost constant throughout the year.

It was not the first time that the audience in the live broadcast room followed into the data storage room.

But every time I come in, I feel emotional.

It doesn't look like a private data storage room at all, but more like a library.

Rows of wooden cabinets line the storage room, and most of them are filled with paper materials.

Not only the records and statistics of daily work are stored here.

There are also various technologies and black technologies that he has recorded over the past few years through continuous learning.

Most of them are technologies in intermediate industrial equipment application knowledge information, intermediate electric power application knowledge information, and carbon-based integrated circuit board preparation knowledge information.

These three points of knowledge information contain the highest level of technology among the knowledge information he has obtained so far.

If these materials are handed over to human civilization, as long as they can be thoroughly understood, there is no problem for human civilization to enter space civilization from ground civilization.

Han Yuan was very familiar with the situation in the data storage room, and found the files he wanted almost instinctively without searching.

Returning to the studio with these documents, Han Yuan took out the blank paper and pen from the drawer, and began to organize and record the materials he had obtained or produced in the past few years.

It doesn't take too long to sort out some basic materials.

The human body enhancement medicine is aimed at the development of the brain, so that he can clearly remember what materials he used before.

Iron, copper, aluminum, chromium, titanium, nickel
Silicon, carbon, boron, hydrogen, fluorine, xenon
Starting from the most basic single element materials, from metals to non-metals, Won listed and sorted out the materials he had manufactured and used in the past one by one.

(End of this chapter)