After rebirth, I started a life of attributes

After solving the problems of the "Gravity Inverter" device and "Propulser" of the "Space Rangers", the team led by Chen Feng and Li Nian can finally breathe a sigh of relief.

However, they know that this is only a small step in the spacecraft manufacturing process, and there are more problems waiting for them to overcome.

First, they faced the energy problem of the spacecraft. Traditional chemical fuels cannot meet the needs of spacecraft for long-term navigation, and they also produce a large amount of waste, causing pollution to the space environment.

In order to solve the energy problem of the "Space Ranger" spacecraft, the team led by Chen Feng and Li Nian started new research non-stop.

They know that only by finding a more efficient and environmentally friendly energy source can the spacecraft maintain sufficient energy supply during its long voyage.

In order to develop a new energy source, Chen Feng and Li Nian led the team to conduct a large number of literature surveys and experiments. They found that antimatter, as an ideal energy source, has extremely high energy density and environmentally friendly properties. Therefore, they decided to focus their research on antimatter energy.

However, to use antimatter as a practical energy source, the first thing that needs to be solved is how to safely obtain and store antimatter. Chen Feng and Li Nian led the team to make countless attempts and finally invented a device called the "antimatter capture device." This device can effectively capture antimatter particles in the universe and store them safely.

Next, they need to figure out how to convert the antimatter into the energy needed for the spacecraft. After some painstaking research, the team invented a device called the "Antimatter Energy Converter." This device can react stored antimatter particles with ordinary matter to release huge amounts of energy. At the same time, this reaction produces very little waste and has almost no impact on the environment.

After successfully solving the problems of acquiring, storing and converting antimatter energy, Chen Feng and Li Nian led the team to apply this brand-new energy source to spacecraft. After a series of tests, they found that antimatter energy has the following advantages and disadvantages.

High energy density. The energy density of antimatter energy is extremely high, far exceeding that of traditional chemical fuels. This means that after carrying antimatter energy, the spacecraft can have more powerful power and achieve longer navigation distances.

Long battery life. Due to the high energy density of antimatter energy, spacecrafts equipped with antimatter energy can have longer endurance. This allows the spacecraft to conduct longer exploration missions and discover more unknown mysteries of the universe.

Environmentally friendly and pollution-free. Antimatter energy generates very little waste and has almost no impact on the environment. This enables the spacecraft to achieve green and environmentally friendly navigation after carrying antimatter energy, providing guarantee for sustainable development for human exploration of the universe.

Efficient conversion. The antimatter energy converter can efficiently convert antimatter particles and ordinary matter into the energy required by the spacecraft, and the energy conversion efficiency is extremely high. This means that after the spacecraft is equipped with antimatter energy, it can use energy more efficiently and increase the speed and efficiency of navigation.

With the successful application of antimatter energy, Chen Feng and Li Nian led the team to finally develop a spacecraft with strong power, long endurance, green environmental protection and other advantages.

After the energy problem is solved, the next thing they face is the protection problem of the spacecraft. The universe is full of dangerous rays and particles. If the protective measures of the spacecraft are not in place, the life safety of the crew will be threatened.

In order to solve the protection problem of the "Space Rangers" spacecraft, the team led by Chen Feng and Li Nian began new research. They know that only by finding a stronger and lighter protective material can the spacecraft resist various external threats during its long voyage.

In order to develop new protective materials, Chen Feng and Li Nian led the team to conduct a large number of literature surveys and experiments. They found that nanotechnology, as an emerging material science, has huge potential. Therefore, they decided to focus their research on nano-protective materials.

However, to apply nanotechnology to protective materials, the first thing that needs to be solved is how to create nanomaterials with high strength and toughness. Chen Feng and Li Nian led the team to make countless attempts and finally invented a material called "nano protective layer".

Immediately, Chen Feng and others began to create a "nano protective layer".

First, they used chemical vapor deposition to deposit a layer of nanoscale carbon atoms on the base material. These carbon atoms form a two-dimensional material called graphene, which is extremely strong and tough.

Next, through controlled nanoscale processing technology, the graphene layers are cross-linked to form a honeycomb-like structure. This structure can effectively disperse and absorb external impact forces, providing good protection.

Finally, a special compound is coated on the outer surface of the graphene layer to form a strong nano-protective layer. This protective layer not only provides additional protection, but also adds to the aesthetics of the material.

After the "nano protective layer" was manufactured, Chen Feng tested its performance, and the test results were very impressive.

The nano-protective layer has extremely high strength and can effectively resist external impact and pressure. Whether it is the impact of tiny meteorites during the flight of the spacecraft, or other external threats, the nano-protective layer can provide effective protection.

The thickness of the nano-protective layer is very thin and lightweight, so it will not add too much burden to the spacecraft. This allows the spacecraft to still maintain good maneuverability and speed after being equipped with a nano-protective layer.

The nano protective layer has good corrosion resistance and can resist the erosion of various acids, alkalis and chemical substances. This makes the nano-protective layer have a longer service life in the space environment, providing long-term protection for spacecraft.

The nano protective layer is self-healing and can repair itself after being damaged. When the nano-protective layer is impacted or scratched by the outside, the structure of the graphene layer can adjust and repair itself, maintaining the integrity and functionality of the protective layer.

With the successful application of nano-protective layers, Chen Feng and Li Nian led the team to finally develop a spacecraft with the advantages of high strength, lightness, corrosion resistance and self-healing.

After solving the energy problem and protection problem, they also faced another very critical problem, that is, the navigation problem of the spacecraft. The universe is vast. Without an accurate navigation system, the spacecraft will not be able to find the correct course and may get lost in the universe.

In order to solve the navigation problem of the "Space Ranger" spacecraft, the team led by Chen Feng and Li Nian began new research. They know that only by finding a more accurate and reliable navigation system can the spacecraft reach its destination accurately during the long voyage.

In order to develop a new navigation system, Chen Feng and Li Nian led the team to conduct a large number of literature surveys and experiments. They found that quantum technology, as an emerging field of science and technology, has huge potential. Therefore, they decided to focus their research on quantum navigation systems.

However, to apply quantum technology to navigation systems, the first thing that needs to be solved is how to use phenomena such as quantum entanglement and quantum superposition for precise navigation. Chen Feng and Li Nian led the team to make countless attempts and finally invented a device called "Quantum Navigation System". First of all, Chen Feng designed a core component called a "quantum navigator". This component is based on the principles of quantum entanglement and quantum superposition and can accurately measure and calculate the position and speed of the spacecraft.

Then, quantum communication technology is used to connect the quantum navigator with the control system of the spacecraft. In this way, the spacecraft's navigation information can be transmitted to the navigator in real time and processed through quantum computing.

Finally, a set of intelligent navigation algorithms was developed that can automatically calculate the optimal navigation path based on the spacecraft's destination and current status. This set of algorithms can adjust and optimize navigation information in real time to ensure that the spacecraft reaches its destination accurately.

Quantum navigation systems utilize the principles of quantum entanglement and quantum superposition to achieve very high measurement accuracy. Whether it is small errors in the navigation of the spacecraft or changes in the external environment, the quantum navigation system can accurately detect and calculate the position and speed of the spacecraft.

The quantum navigation system is based on quantum communication technology and can achieve highly reliable data transmission and calculation. In this way, the navigation information of the spacecraft can be transmitted and processed in real time to ensure the accuracy and reliability of navigation.

Quantum navigation systems can monitor and update spacecraft navigation information in real time. Whether in static navigation or in complex situations such as dynamic rendezvous and docking, the quantum navigation system can respond and adjust quickly to ensure the safety and stability of the spacecraft.

The quantum navigation system is equipped with a set of intelligent navigation algorithms that can automatically calculate the optimal navigation path based on the destination and current status of the spacecraft. This set of algorithms can adjust and optimize navigation information in real time to improve the navigation efficiency and safety of spacecraft.

With the successful application of the quantum navigation system, Chen Feng and Li Nian led the team to finally develop a spacecraft with the advantages of accuracy, reliability, real-time and intelligence.

After solving these problems, Chen Feng and Li Nian led the team to start the assembly and testing of the spacecraft. They integrated all the research results into this spacecraft under the name "Tiangong".

After three years of hard work, they finally built the spacecraft "Tiangong".

This spacecraft not only has a powerful power system, advanced navigation system, but also complete protective measures. It is an important tool for Xia Guo to explore the universe.

……

The "Tiangong" spacecraft, the masterpiece of Xia Guo's science and technology, finally ushered in its first test flight today.

The launch base is crowded with people, and everyone's eyes are focused on the "Tiangong". Almost all the important people were present, with anticipation and nervousness in their eyes as they watched the Tiangong's first space journey.

The peripheral media and people are also staring closely at the Tiangong spacecraft. They are looking forward to the first flight of the spacecraft and the new chapter of Xia Guo's science and technology. They held cameras and mobile phones in their hands, and they wanted to record this historic moment.

Three astronauts from Xia State, wearing spacesuits and looking majestic, boarded the "Tiangong" spacecraft. Their eyes are firm and their bodies are tall and straight. They are the pride of Xia Kingdom.

"Five, four, three, two, one, launch!"

As the countdown ended, in an instant, huge thrust spurted out from the bottom of the spacecraft, slowly lifting the "Tiangong" off the ground. Brilliant flames danced at the bottom of the spacecraft, as if they were the technological fire of Xia State, lighting up the future of the "Tiangong".

People's eyes are fixed on the "Tiangong", and their hearts are full of expectations. They watched the "Tiangong" getting higher and farther, and their hearts were filled with pride.

During the launch of the spacecraft, gorgeous fireworks bloomed in the sky, adding a bright color to the launch of the "Tiangong". The sound of music, cheers, and fireworks were intertwined to form a symphony praising the "Tiangong".

Under people's gaze, the "Tiangong" spacecraft broke through the atmosphere of the Blue Star with an elegant gesture and flew into space. Its posture is tall and straight, its speed is getting faster and faster, and its light is getting brighter and brighter. It is like a bright pearl inlaid in the blue sky.

People's eyes are still fixed on the direction in which it disappeared, and their hearts are full of expectations. They hope that "Tiangong" can return safely and that "Tiangong" can achieve fruitful results in space.

In the vast universe, the "Tiangong" relies on its powerful gravity inverter device to directly break away from the gravity of the star and fly freely in the solar system.

The gravity inverter is an important breakthrough in Xia Guo's technology. It can reverse the star's gravity, allowing the spacecraft to fly freely around the star. The successful application of this technology has made Tiangong a true space explorer.

In the process of "Tiangong" breaking away from the gravitational constraints of the star, people saw a thrilling scene through the camera on the spacecraft. A powerful thrust was ejected from the bottom of the spacecraft, fighting fiercely against the gravity of the star. The flames jumped at the bottom of the spacecraft, as if engaged in a life-and-death struggle with the stars.

People's eyes were glued to the screen, and their hearts were filled with tension. They cheered for the "Tiangong" and expected it to successfully break away from the gravitational constraints of the star and fly freely in the universe.

Finally, amidst people's expectations, "Tiangong" successfully broke away from the gravitational constraints of the star. It is like an eagle with soaring wings, soaring freely in the universe. People's eyes are still fixed on it, and their hearts are full of excitement and pride.

The "Tiangong" spacecraft flies freely in the solar system, exploring the unknown universe and looking for new life and resources. It represents the scientific and technological strength of Xia State and shows the bravery and wisdom of Xia State people.

The flight of the "Tiangong" is not only a space exploration, but also a gorgeous display of Xia's science and technology and a warm cheer for the people of Xia. This day will always remain in people's hearts and become a milestone in the development of Xia Guo's science and technology. (End of chapter)