Chapter 845 Difficulty
·
Niao Shi Lang
Chapter 845 Difficulty
If these functions are to be achieved at the same time, it is not the 01:30 point that is technically difficult.
This requires Jiang Cheng to integrate a large number of advanced technologies on the small landing pod in order to do so many different tasks.
Jiang Cheng's other skills are not very troublesome, at most it will delay him a little bit of work, that's all, sooner or later they can be added to the landing module.
The most difficult thing for Jiang Cheng is how to resist the strong wind on Neptune.
You must know that the wind speed of that wind may exceed 03 thousand kilometers per hour, which is simply unimaginable.
Under such a strong wind, everything would be blown into the sky, and no being could be spared from this wind of thought.
Anyway, there has never been such a fast wind on the water polo, and Jiang Cheng doesn't know how to solve this problem.
That is the strongest other wind in the solar system, and it is impossible for ordinary people to touch it.
Things like wind don't seem to have much success in ordinary times, but we can encounter them every day in our lives.
However, once the wind speed reaches a certain level, it will produce a huge qualitative change, thus possessing unparalleled destructive power.
As long as the wind speed exceeds [-] kilometers per hour, it can be regarded as a typhoon.
I'm afraid everyone knows the power of a typhoon. It is something that can blow up even a car, and it often causes catastrophic damage to coastal areas.
A typhoon with a speed of [-] companies per hour is a natural disaster that human beings cannot resist. What about the wind with a speed of more than [-] kilometers?
I'm afraid it is a disaster enough to destroy everything, and human beings simply cannot resist this kind of thing.
If Sifeng on Neptune appeared on the water polo, it could easily make a city disappear on the map.
This is not just casual talk, Jiang Cheng has already calculated the destructive power of this kind of thinking.
Finally, it was found that if this kind of wind appeared in coastal cities, one would destroy all the buildings and turn the whole city into flat ground.
Such a terrible destructive power, it is a very difficult problem for Jiang Cheng to resist with a small landing.
Fortunately, Jiang Cheng finally thought of a solution, which is to use a technology developed before.
If the energy protection technology is used on the landing module, it should be able to withstand the wind on Neptune.
The energy shield developed by Jiang Cheng before can be prepared for the spacecraft.
At that time, Jiang Cheng developed this protective device in order to allow the spacecraft to reach the meteorite in the universe.
The energy shield can withstand the impact of meteorites, and it shouldn't be a big problem to resist the wind.
This kind of powerless energy shield technology is indeed very suitable for using physical protective devices in this situation, but there is no way to resist such a powerful other wind.
Even if Jiang Cheng designed the outer surface of the landing module to be strong, the design of the buffer device is useless.
Because even if the shell of the landing pusher can block the wind, the impact of Sifeng cannot be completely eliminated.
When the time comes, the landing boat will definitely be blown away by the Sifeng, and will be blown away several miles away in a short while.
In the end, even if the astronauts inside are fine, the entire mining operation will fail.
So how to prevent the landing from being blown away is the most critical issue.
The energy shield can solve this problem, and there will be no wind blowing at all.
Energy protection is an invisible means of energy defense. If a layer of energy protection is placed around the landing module, the wind will not be able to touch the landing module at all.
All the impact brought by the benevolent wind will be resisted by the outer energy shield, and there is nothing wrong with the landing module inside.
As long as the energy shield remains intact and the energy output is stable, it can resist the wind on Neptune.
The energy shield is the most suitable protective device against wind, and it is also the ultimate answer to this problem.
After Jiang Cheng found the solution, he immediately threw himself into the rush of research and development.
How to install so many devices on the landing module is enough for Jiang Cheng to have a headache.
We must know that energy protection alone requires a large energy supply, which requires Jiang Cheng to increase his energy installations.
If you want to ensure the energy supply of the energy shield, you need a larger variable reactor to provide power for the entire landing.
But in this way, the space left for other devices will become smaller, and it will become difficult to have so many functions.
How to coordinate all kinds of different equipment and install them all on the landing module is a very challenging problem.
Fortunately, Jiang Cheng's scientific research strength is not comparable to that of ordinary people. If someone else is in charge of this thing, he may not be able to research it for a few years.
The main reason is that there are too many technical issues involved, and ordinary people simply cannot handle them.
But if Jiang Cheng did this job, all the problems would no longer be problems at once, and any difficulties would be easily solved in front of Jiang Cheng.
After a month of hard work, Jiang Cheng finally created this special landing module.
Just as Jiang Cheng finished his part of the work, good news came from other groups.
They have also completed the tasks assigned to them by Jiang Cheng and produced the equipment needed for mining operations.
All the things needed for this operation are now ready, and the official operation can start at any time.
After Jiang Cheng and his technicians completed the preliminary equipment preparation work, the next step was the specific mining operation.
Jiang Cheng formulated a very detailed action plan for this mining operation on Neptune.
Based on the environmental data of Tongerfa Jiepin Zhou District, he took all the circumstances into consideration.
This action plan takes into account various unexpected situations, and imitates corresponding plans for all unexpected situations.
As long as all the astronauts strictly follow this action plan, they will be able to successfully mine the return product.
Now that everything is in place, it's time for the real action.
Jiang Cheng took a group of technicians under his command, as well as the selected best astronauts, and embarked on a journey to Neptune on the Pioneer.
After a few hours of flying, the planet that exudes a bright blue light finally appeared in front of everyone.
At this time, Jiang Cheng stood at the front of the bridge, looking carefully at the jaw-blue planet through the transparent body in front of him.
Neptune still looked the same as the last time he saw it, without any change.
Time passes very slowly for a planet.
If you want to make any changes to a planet, don't even think about it if you don't have hundreds of millions of years.
(End of this chapter)
If these functions are to be achieved at the same time, it is not the 01:30 point that is technically difficult.
This requires Jiang Cheng to integrate a large number of advanced technologies on the small landing pod in order to do so many different tasks.
Jiang Cheng's other skills are not very troublesome, at most it will delay him a little bit of work, that's all, sooner or later they can be added to the landing module.
The most difficult thing for Jiang Cheng is how to resist the strong wind on Neptune.
You must know that the wind speed of that wind may exceed 03 thousand kilometers per hour, which is simply unimaginable.
Under such a strong wind, everything would be blown into the sky, and no being could be spared from this wind of thought.
Anyway, there has never been such a fast wind on the water polo, and Jiang Cheng doesn't know how to solve this problem.
That is the strongest other wind in the solar system, and it is impossible for ordinary people to touch it.
Things like wind don't seem to have much success in ordinary times, but we can encounter them every day in our lives.
However, once the wind speed reaches a certain level, it will produce a huge qualitative change, thus possessing unparalleled destructive power.
As long as the wind speed exceeds [-] kilometers per hour, it can be regarded as a typhoon.
I'm afraid everyone knows the power of a typhoon. It is something that can blow up even a car, and it often causes catastrophic damage to coastal areas.
A typhoon with a speed of [-] companies per hour is a natural disaster that human beings cannot resist. What about the wind with a speed of more than [-] kilometers?
I'm afraid it is a disaster enough to destroy everything, and human beings simply cannot resist this kind of thing.
If Sifeng on Neptune appeared on the water polo, it could easily make a city disappear on the map.
This is not just casual talk, Jiang Cheng has already calculated the destructive power of this kind of thinking.
Finally, it was found that if this kind of wind appeared in coastal cities, one would destroy all the buildings and turn the whole city into flat ground.
Such a terrible destructive power, it is a very difficult problem for Jiang Cheng to resist with a small landing.
Fortunately, Jiang Cheng finally thought of a solution, which is to use a technology developed before.
If the energy protection technology is used on the landing module, it should be able to withstand the wind on Neptune.
The energy shield developed by Jiang Cheng before can be prepared for the spacecraft.
At that time, Jiang Cheng developed this protective device in order to allow the spacecraft to reach the meteorite in the universe.
The energy shield can withstand the impact of meteorites, and it shouldn't be a big problem to resist the wind.
This kind of powerless energy shield technology is indeed very suitable for using physical protective devices in this situation, but there is no way to resist such a powerful other wind.
Even if Jiang Cheng designed the outer surface of the landing module to be strong, the design of the buffer device is useless.
Because even if the shell of the landing pusher can block the wind, the impact of Sifeng cannot be completely eliminated.
When the time comes, the landing boat will definitely be blown away by the Sifeng, and will be blown away several miles away in a short while.
In the end, even if the astronauts inside are fine, the entire mining operation will fail.
So how to prevent the landing from being blown away is the most critical issue.
The energy shield can solve this problem, and there will be no wind blowing at all.
Energy protection is an invisible means of energy defense. If a layer of energy protection is placed around the landing module, the wind will not be able to touch the landing module at all.
All the impact brought by the benevolent wind will be resisted by the outer energy shield, and there is nothing wrong with the landing module inside.
As long as the energy shield remains intact and the energy output is stable, it can resist the wind on Neptune.
The energy shield is the most suitable protective device against wind, and it is also the ultimate answer to this problem.
After Jiang Cheng found the solution, he immediately threw himself into the rush of research and development.
How to install so many devices on the landing module is enough for Jiang Cheng to have a headache.
We must know that energy protection alone requires a large energy supply, which requires Jiang Cheng to increase his energy installations.
If you want to ensure the energy supply of the energy shield, you need a larger variable reactor to provide power for the entire landing.
But in this way, the space left for other devices will become smaller, and it will become difficult to have so many functions.
How to coordinate all kinds of different equipment and install them all on the landing module is a very challenging problem.
Fortunately, Jiang Cheng's scientific research strength is not comparable to that of ordinary people. If someone else is in charge of this thing, he may not be able to research it for a few years.
The main reason is that there are too many technical issues involved, and ordinary people simply cannot handle them.
But if Jiang Cheng did this job, all the problems would no longer be problems at once, and any difficulties would be easily solved in front of Jiang Cheng.
After a month of hard work, Jiang Cheng finally created this special landing module.
Just as Jiang Cheng finished his part of the work, good news came from other groups.
They have also completed the tasks assigned to them by Jiang Cheng and produced the equipment needed for mining operations.
All the things needed for this operation are now ready, and the official operation can start at any time.
After Jiang Cheng and his technicians completed the preliminary equipment preparation work, the next step was the specific mining operation.
Jiang Cheng formulated a very detailed action plan for this mining operation on Neptune.
Based on the environmental data of Tongerfa Jiepin Zhou District, he took all the circumstances into consideration.
This action plan takes into account various unexpected situations, and imitates corresponding plans for all unexpected situations.
As long as all the astronauts strictly follow this action plan, they will be able to successfully mine the return product.
Now that everything is in place, it's time for the real action.
Jiang Cheng took a group of technicians under his command, as well as the selected best astronauts, and embarked on a journey to Neptune on the Pioneer.
After a few hours of flying, the planet that exudes a bright blue light finally appeared in front of everyone.
At this time, Jiang Cheng stood at the front of the bridge, looking carefully at the jaw-blue planet through the transparent body in front of him.
Neptune still looked the same as the last time he saw it, without any change.
Time passes very slowly for a planet.
If you want to make any changes to a planet, don't even think about it if you don't have hundreds of millions of years.
(End of this chapter)
