Chapter 442: 442
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This method has a difficult problem to solve, that is, the strength of assembling asteroids, because it is a satellite "assembled" by a large number of asteroids, and its structure is not comparable to other naturally formed stars.
If there is no other reason, after hundreds of years or even longer, because of gravitational rotation and other reasons, the satellite will gradually compress and fuse, and finally integrate into a satellite.
However, there are two problems with this method. One is the "assembly" of asteroids. It is very difficult to complete this task by relying on the technology of both iron soldiers and the "creator". Even if it is barely completed, there will be various problems. The other problem is that after the "assembly" is completed, the strength of this satellite is too low.
Because after the "assembly" is completed, the satellite has enough mass and volume, and has an orbit, but it also makes it the target of small and medium-sized planets in the universe. A large number of meteorites and asteroids will disintegrate the fragile satellite. Therefore, the success of this scheme is very difficult.
The second scheme is artificial manufacturing. This scheme is to manufacture a man-made satellite, or a space fortress. The space fortress is made of metal and will be loaded with a large number of weapons. It uses a bioenergy host and a nuclear fusion energy core. Its volume is one fifth of that of aquamarine.
The advantage of this plan is that the man-made satellite can be controlled by humans, which can affect the climate of aquamarine and adjust the environment of aquamarine. In addition, the star fortress is also the defender of the whole Aquamarine and an interstellar fortress with many weapons. Until the fortress falls, aquamarine is safe.
The disadvantage is that it is expensive and difficult to build, and the construction time may take hundreds or even thousands of years.
The third scheme is somewhat similar to the first scheme, but this time it is not to capture asteroids, but directly capture a satellite, and then transport the satellite to the capture orbit of aquamarine.
In the galaxy where the sea blue star is located, there are many planets with satellites, some of which even have dozens of satellites. In this stellar system, there is a giant gaseous planet. The mass of this giant gaseous planet is much higher than that of other planets in this galaxy. According to the research of the 'creator', this planet has many satellites.
Allen called the planet emerald star, because when viewed from space, the color of the planet is emerald green and looks as beautiful as emerald. It is between 700 million kilometers and 1 billion kilometers away from sea blue star. The emerald star is the cleaner of the galaxy.
Because of its huge mass, its gravity is very strong. Asteroids passing through its orbit are easy to be captured by it. It attracts those aimless asteroids and comets in the universe, ensuring that the sea blue star will not be attacked by too many meteorites.
The emerald star has a large number of satellites. These satellites are large and small. The largest one has a mass of one eighth of that of sea blue star and is also the largest satellite in the galaxy. After calculation, the optimal satellite size of aquamarine is about one thirtieth of that of aquamarine. Among the many satellites of this giant gaseous planet, Allen found a suitable satellite.
The advantage of this scheme is that once it is transported, the satellite problem can be solved, and the time is the shortest. The disadvantage is that it is the most difficult.
However, it is very difficult to carry it, because there are too many ion thrusters to change the orbit of such a large satellite.
The energy required is also astronomical. Allen asked those scientists to do experiments. If you want to push an asteroid into the capture orbit of aquamarine, you need at least 10000 particle thrusters with maximum power. In this way, the energy consumed by ion thrusters is also huge.
And this is not the most important problem. The biggest problem is the strength of the satellite. Because it needs strong enough reasoning to get rid of the gravitational orbit of emerald star, it needs strong enough thrust.
After careful measurement, those scientists found that the satellite belongs to a rocky planet, there is magma inside the planet, and the plates are constantly moving. Even if Allen installed an ion propeller enough to push the satellite, it is more likely to crush the satellite like a chicken egg.
This kind of satellite is not as strong as we think, unless it is a planet with high metal content, such as mercury. This kind of planet containing a lot of metal can use this kind of planetary propeller.
All three schemes are difficult. After discussion, Allen decided to use the first scheme for experiment. This scheme is not difficult in the early stage. Capturing asteroids has been done many times, and iron soldiers are very skilled.
Once again came to the asteroid belt. After some exploration, Allen found an asteroid with a diameter of about 50 kilometers. After calculation, the asteroid with this mass is the most cost-effective to use ion thrusters.
There are five asteroids to be captured in the first batch. Except for the largest asteroid with a diameter of 50 kilometers, the others are asteroids with a diameter of between 10 kilometers and 30 kilometers.
It took some time to install ion thrusters for these asteroids, and then move in the direction of blue sea star according to the predetermined orbit.
Because of the gravity of the emerald star, the asteroid's orbit is curved. Although the distance is much longer, the reasoning requirements for the propeller are much lower.
After a little time of navigation, these asteroids finally came to the gravitational capture orbit of aquamarine. Five asteroids in gravitational orbit began to revolve around ceruleus. At the same time, the propeller constantly adjusts it to prevent the asteroid from being attracted by the gravitational attraction of aquamarine and finally hitting aquamarine.
You know, such a large asteroid impact is enough to directly destroy the newly transformed Aquamarine ecosystem.
The next step is to 'assemble' these asteroids, which is also the most difficult part of this scheme. According to the technology of the two civilizations, some metal connecting frames are built on these asteroids and then connected. At the same time, ion thrusters are installed at the opposite position of the connection to forcibly 'assemble' these asteroids together.
The metal requirements used in this scheme are very high, and it is difficult to achieve according to the technology of both the iron warrior and the 'creator', so Allen is ready to use another method. Since technology can't do it for the time being, let's change our thinking and use magic. There are still some ways to achieve the effect that science and technology can't achieve.
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This method has a difficult problem to solve, that is, the strength of assembling asteroids, because it is a satellite "assembled" by a large number of asteroids, and its structure is not comparable to other naturally formed stars.
If there is no other reason, after hundreds of years or even longer, because of gravitational rotation and other reasons, the satellite will gradually compress and fuse, and finally integrate into a satellite.
However, there are two problems with this method. One is the "assembly" of asteroids. It is very difficult to complete this task by relying on the technology of both iron soldiers and the "creator". Even if it is barely completed, there will be various problems. The other problem is that after the "assembly" is completed, the strength of this satellite is too low.
Because after the "assembly" is completed, the satellite has enough mass and volume, and has an orbit, but it also makes it the target of small and medium-sized planets in the universe. A large number of meteorites and asteroids will disintegrate the fragile satellite. Therefore, the success of this scheme is very difficult.
The second scheme is artificial manufacturing. This scheme is to manufacture a man-made satellite, or a space fortress. The space fortress is made of metal and will be loaded with a large number of weapons. It uses a bioenergy host and a nuclear fusion energy core. Its volume is one fifth of that of aquamarine.
The advantage of this plan is that the man-made satellite can be controlled by humans, which can affect the climate of aquamarine and adjust the environment of aquamarine. In addition, the star fortress is also the defender of the whole Aquamarine and an interstellar fortress with many weapons. Until the fortress falls, aquamarine is safe.
The disadvantage is that it is expensive and difficult to build, and the construction time may take hundreds or even thousands of years.
The third scheme is somewhat similar to the first scheme, but this time it is not to capture asteroids, but directly capture a satellite, and then transport the satellite to the capture orbit of aquamarine.
In the galaxy where the sea blue star is located, there are many planets with satellites, some of which even have dozens of satellites. In this stellar system, there is a giant gaseous planet. The mass of this giant gaseous planet is much higher than that of other planets in this galaxy. According to the research of the 'creator', this planet has many satellites.
Allen called the planet emerald star, because when viewed from space, the color of the planet is emerald green and looks as beautiful as emerald. It is between 700 million kilometers and 1 billion kilometers away from sea blue star. The emerald star is the cleaner of the galaxy.
Because of its huge mass, its gravity is very strong. Asteroids passing through its orbit are easy to be captured by it. It attracts those aimless asteroids and comets in the universe, ensuring that the sea blue star will not be attacked by too many meteorites.
The emerald star has a large number of satellites. These satellites are large and small. The largest one has a mass of one eighth of that of sea blue star and is also the largest satellite in the galaxy. After calculation, the optimal satellite size of aquamarine is about one thirtieth of that of aquamarine. Among the many satellites of this giant gaseous planet, Allen found a suitable satellite.
The advantage of this scheme is that once it is transported, the satellite problem can be solved, and the time is the shortest. The disadvantage is that it is the most difficult.
However, it is very difficult to carry it, because there are too many ion thrusters to change the orbit of such a large satellite.
The energy required is also astronomical. Allen asked those scientists to do experiments. If you want to push an asteroid into the capture orbit of aquamarine, you need at least 10000 particle thrusters with maximum power. In this way, the energy consumed by ion thrusters is also huge.
And this is not the most important problem. The biggest problem is the strength of the satellite. Because it needs strong enough reasoning to get rid of the gravitational orbit of emerald star, it needs strong enough thrust.
After careful measurement, those scientists found that the satellite belongs to a rocky planet, there is magma inside the planet, and the plates are constantly moving. Even if Allen installed an ion propeller enough to push the satellite, it is more likely to crush the satellite like a chicken egg.
This kind of satellite is not as strong as we think, unless it is a planet with high metal content, such as mercury. This kind of planet containing a lot of metal can use this kind of planetary propeller.
All three schemes are difficult. After discussion, Allen decided to use the first scheme for experiment. This scheme is not difficult in the early stage. Capturing asteroids has been done many times, and iron soldiers are very skilled.
Once again came to the asteroid belt. After some exploration, Allen found an asteroid with a diameter of about 50 kilometers. After calculation, the asteroid with this mass is the most cost-effective to use ion thrusters.
There are five asteroids to be captured in the first batch. Except for the largest asteroid with a diameter of 50 kilometers, the others are asteroids with a diameter of between 10 kilometers and 30 kilometers.
It took some time to install ion thrusters for these asteroids, and then move in the direction of blue sea star according to the predetermined orbit.
Because of the gravity of the emerald star, the asteroid's orbit is curved. Although the distance is much longer, the reasoning requirements for the propeller are much lower.
After a little time of navigation, these asteroids finally came to the gravitational capture orbit of aquamarine. Five asteroids in gravitational orbit began to revolve around ceruleus. At the same time, the propeller constantly adjusts it to prevent the asteroid from being attracted by the gravitational attraction of aquamarine and finally hitting aquamarine.
You know, such a large asteroid impact is enough to directly destroy the newly transformed Aquamarine ecosystem.
The next step is to 'assemble' these asteroids, which is also the most difficult part of this scheme. According to the technology of the two civilizations, some metal connecting frames are built on these asteroids and then connected. At the same time, ion thrusters are installed at the opposite position of the connection to forcibly 'assemble' these asteroids together.
The metal requirements used in this scheme are very high, and it is difficult to achieve according to the technology of both the iron warrior and the 'creator', so Allen is ready to use another method. Since technology can't do it for the time being, let's change our thinking and use magic. There are still some ways to achieve the effect that science and technology can't achieve.
This method has a difficult problem to solve, that is, the strength of assembling asteroids, because it is a satellite "assembled" by a large number of asteroids, and its structure is not comparable to other naturally formed stars.If there is no other reason, after hundreds of years or even longer, because of gravitational rotation and other reasons, the satellite will gradually compress and fuse, and finally integrate into a satellite.However, there are two problems with this method. One is the "assembly" of asteroids. It is very difficult to complete this task by relying on the technology of both iron soldiers and the "creator". Even if it is barely completed, there will be various problems. The other problem is that after the "assembly" is completed, the strength of this satellite is too low.Because after the "assembly" is completed, the satellite has enough mass and volume, and has an orbit, but it also makes it the target of small and medium-sized planets in the universe. A large number of meteorites and asteroids will disintegrate the fragile satellite. Therefore, the success of this scheme is very difficult.The second scheme is artificial manufacturing. This scheme is to manufacture a man-made satellite, or a space fortress. The space fortress is made of metal and will be loaded with a large number of weapons. It uses a bioenergy host and a nuclear fusion energy core. Its volume is one fifth of that of aquamarine.The advantage of this plan is that the man-made satellite can be controlled by humans, which can affect the climate of aquamarine and adjust the environment of aquamarine. In addition, the star fortress is also the defender of the whole Aquamarine and an interstellar fortress with many weapons. Until the fortress falls, aquamarine is safe.The disadvantage is that it is expensive and difficult to build, and the construction time may take hundreds or even thousands of years.The third scheme is somewhat similar to the first scheme, but this time it is not to capture asteroids, but directly capture a satellite, and then transport the satellite to the capture orbit of aquamarine.In the galaxy where the sea blue star is located, there are many planets with satellites, some of which even have dozens of satellites. In this stellar system, there is a giant gaseous planet. The mass of this giant gaseous planet is much higher than that of other planets in this galaxy. According to the research of the 'creator', this planet has many satellites.Allen called the planet emerald star, because when viewed from space, the color of the planet is emerald green and looks as beautiful as emerald. It is between 700 million kilometers and 1 billion kilometers away from sea blue star. The emerald star is the cleaner of the galaxy.Because of its huge mass, its gravity is very strong. Asteroids passing through its orbit are easy to be captured by it. It attracts those aimless asteroids and comets in the universe, ensuring that the sea blue star will not be attacked by too many meteorites.The emerald star has a large number of satellites. These satellites are large and small. The largest one has a mass of one eighth of that of sea blue star and is also the largest satellite in the galaxy. After calculation, the optimal satellite size of aquamarine is about one thirtieth of that of aquamarine. Among the many satellites of this giant gaseous planet, Allen found a suitable satellite.The advantage of this scheme is that once it is transported, the satellite problem can be solved, and the time is the shortest. The disadvantage is that it is the most difficult.However, it is very difficult to carry it, because there are too many ion thrusters to change the orbit of such a large satellite.The energy required is also astronomical. Allen asked those scientists to do experiments. If you want to push an asteroid into the capture orbit of aquamarine, you need at least 10000 particle thrusters with maximum power. In this way, the energy consumed by ion thrusters is also huge.And this is not the most important problem. The biggest problem is the strength of the satellite. Because it needs strong enough reasoning to get rid of the gravitational orbit of emerald star, it needs strong enough thrust.After careful measurement, those scientists found that the satellite belongs to a rocky planet, there is magma inside the planet, and the plates are constantly moving. Even if Allen installed an ion propeller enough to push the satellite, it is more likely to crush the satellite like a chicken egg.This kind of satellite is not as strong as we think, unless it is a planet with high metal content, such as mercury. This kind of planet containing a lot of metal can use this kind of planetary propeller.All three schemes are difficult. After discussion, Allen decided to use the first scheme for experiment. This scheme is not difficult in the early stage. Capturing asteroids has been done many times, and iron soldiers are very skilled.Once again came to the asteroid belt. After some exploration, Allen found an asteroid with a diameter of about 50 kilometers. After calculation, the asteroid with this mass is the most cost-effective to use ion thrusters.There are five asteroids to be captured in the first batch. Except for the largest asteroid with a diameter of 50 kilometers, the others are asteroids with a diameter of between 10 kilometers and 30 kilometers.It took some time to install ion thrusters for these asteroids, and then move in the direction of blue sea star according to the predetermined orbit.Because of the gravity of the emerald star, the asteroid's orbit is curved. Although the distance is much longer, the reasoning requirements for the propeller are much lower.After a little time of navigation, these asteroids finally came to the gravitational capture orbit of aquamarine. Five asteroids in gravitational orbit began to revolve around ceruleus. At the same time, the propeller constantly adjusts it to prevent the asteroid from being attracted by the gravitational attraction of aquamarine and finally hitting aquamarine.You know, such a large asteroid impact is enough to directly destroy the newly transformed Aquamarine ecosystem.The next step is to 'assemble' these asteroids, which is also the most difficult part of this scheme. According to the technology of the two civilizations, some metal connecting frames are built on these asteroids and then connected. At the same time, ion thrusters are installed at the opposite position of the connection to forcibly 'assemble' these asteroids together.The metal requirements used in this scheme are very high, and it is difficult to achieve according to the technology of both the iron warrior and the 'creator', so Allen is ready to use another method. Since technology can't do it for the time being, let's change our thinking and use magic. There are still some ways to achieve the effect that science and technology can't achieve.
