From the perspective of the TV camera, the super-large anti-gravity force pushed forward and rose up from the ground, rushing into the sky like a huge flying saucer.

Unlike the rocket thruster, the acceleration of the anti-gravity thruster is not that fast, and there is no violent flames and smoke below. The scene looks like a science fiction movie, which makes everyone feel very shocked.

Live broadcast is conducted simultaneously around the world, using space connection technology without any delay.

The whole world has discussed, "This huge thruster is so amazing that I can only think of the large UFO in the movie."

"It's like an alien spaceship, rising up from the ground inexplicably, and I don't know what technology it is using."

"This is really amazing. I really didn't expect to see such a scene one day, and it's not in the movie, but in reality."

"I have always said in the report that the anti-gravity technology of the Institute of Mechanics has approached the top level and has even hope to catch up. Now I know that what I say is simply the same as fart."

"It's stinking! It's purely whimsical. Can the Institute of Mechanics know such a large anti-gravity thruster? They can't even make small anti-gravity thrusters."

"Now you can see that their technology has been ahead of other institutions for decades!"

Everyone was shocked.

Although the acceleration of the anti-gravity thruster is not as fast as that of the rocket thruster, its speed is not that slow. Soon, the huge ‘UFO’ in the field of vision becomes a small black dot in the sky.

In fact, the initial acceleration of the anti-gravity thruster is more than twice as slow as the rocket thruster. However, after reaching a high point due to the stable output power, the earth's gravity becomes smaller and smaller, the acceleration continues to rise, and the increase speed becomes faster and faster.

In other words, the anti-gravity thruster has a relatively fast subsequent acceleration, and the maximum speed that can be achieved is about twice that of the rocket thruster.

After rising to a height of 100 kilometers, the acceleration of the anti-gravity thruster will stabilize, but it will continue to accelerate. When it reaches 200 kilometers of space, the anti-gravity thruster will greatly reduce the power and keep the speed stable.

This approach is to maintain stability and reduce energy consumption.

When the anti-gravity thruster reaches an altitude of 300 kilometers, most of the propulsion devices will be turned off.

The staff inside the thruster began to fine-tune the speed and route to ensure that the thruster could complete the task normally.

The process from the anti-gravity thruster rising from the ground to the approaching the space station takes about half an hour, which is about the same time as the large rocket recommender.

The TV lens has been given anti-gravity thrusters, and the performance displayed by the thrusters also shocked everyone.

"In my opinion, with this performance, it's very easy for this thruster to go to the moon."

"It's not a big problem to be able to go to the moon if you can go to the moon."

"Don't forget that there are pilots on it, and there is more than one, and this thruster will return to the ground. This is the super-large space shuttle. I believe the energy it carries is definitely enough to support going to the moon."

That's true.

Just like a very professional comment, as long as you can get rid of the gravity of the earth and rise into space, there will be no technical difficulties when you go to the moon.

This has nothing to do with distance.

When any device ascends to space and goes to the moon, most of the time it relies on gravity and inertia, rather than relying solely on its own energy. The energy consumed by reaching space from the ground is higher than the process of reaching the moon from space.

As long as the device is carefully calculated and at the same time, the device can resist risks in space, it can ensure that the device can reach the moon safely.

The process of the anti-gravity thruster reaching the space station is still a bit long.

As we kept waiting, many people were talking about it.

The same is true for live TV.

The host kept giving introductions, but it was a bit embarrassing that he still didn't know what the super experiment was, so he couldn't talk about it according to the experiment.

He even had a guess, "Is the super experiment a big anti-gravity thruster lifting off? Or docking with the space station?"

"Shouldn't it?"

Because the large anti-gravity thruster has already performed a mission before, which is to send the space station to space.

At that time, the large anti-gravity thruster did not board the TV screen. What everyone saw was the space station and went directly to space.

This seems reasonable, but it always feels weird.

Finally, when the gravity thruster was launched and approached the space station, the picture turned into a space scenery, and more people were looking forward to it, especially those professionals, who did not know how the anti-gravity thruster was connected to the space station.

Both seem to be unable to connect.

The scene they saw next was very shocking.

The anti-gravity thruster uses a very domineering approach. When approaching the space station, it directly aims at the space station in a parallel manner, and slowly approaches and merges directly together.

The whole process can be understood as the space station landing directly on the platform provided by the anti-gravity thruster, and the two super-large equipment overlapped together.

All the pictures turned to the platform above anti-gravity. Several staff members in space suits walked out and opened the equipment to fix the space station. Then the cabin door of the space station was opened, and three astronauts who had worked for about a hundred days walked out.

This process is like completing work on a large ship. First, landing a large aircraft or fighter plane on the ship, and then allowing the pilot to get off the plane, and then adjusting the material equipment at will.

So the rest of the work is very simple.

Although the process seems very direct, those who know the technical content of it know how difficult it is. This requires very high technology, but at the same time it also has a very big advantage, which is to make the process simple.

If it is a conventional material delivery, it is necessary to launch a special rocket thruster to transport the cargo compartment, and then the cargo compartment is connected to the space station in space.

Because the capacity of the cargo warehouse is limited, each launch requires a rocket thruster to consume. Each transportation mission is very expensive, and the materials transported are very limited, and generally cannot carry large equipment at all.

This was the case with the last Z-wave device transport, except that it was a small anti-gravity thruster, which transported the Z-wave device into space, and finally allowed the Z-wave device to dock with the space station independently.

Docking in space requires very fine quality, no errors are allowed, and the error tolerance rate is very low.

The method used now is much simpler and more direct, but the required technology is also very high-end.

The command center is also discussing.

The senior leader asked Zhao Yi, "Academician Zhao, what do you think of this technology? Let the space station land directly on the anti-gravity thruster platform to directly complete the astronaut and material transportation work."

Zhao Yi looked at the screen and said, "This is a very good foundation, but there is still a lot of room for improvement. I think the thruster can be made bigger, just like a large spacecraft, in science fiction movies, leaving a cabin to allow the space station to enter directly."

"It's an open-air platform now, and there are still some dangers."

The senior leader shook his head with a wry smile, "At present, we have no way to build such a large spacecraft, unless."

He didn't finish speaking.

Zhao Yi understood the meaning and knew that the senior leaders were talking about the "nuclear fusion device".

Although the energy consumption of anti-gravity thrusters is relatively low, because they use conventional power, a large part of the space is required to load fuel.

This is where the limitations are.

If you have a nuclear fusion device with stronger power and more stable output and use the energy provided by the nuclear fusion device as the core, you can create a larger spacecraft, which can truly realize a large spacecraft carrying thousands of thousands of people like a science fiction movie.

Zhao Yi is still very much looking forward to the development of nuclear fusion devices, and no one knows the progress of nuclear fusion devices better than him.

The current nuclear fusion device is designed by him. The compression core has been manufactured and compressed in one breath by Z-wave coverage. The rest of the work is to improve other auxiliary components, including the power device at the output.

The main reason why the nuclear fusion device has not been completed is that it is inexperienced. The core of the nuclear fusion device with one-time compression molding is not very complete.

In the process of adding auxiliary components, the core device also needs to be adjusted.

This adjustment process is very complicated. The most important thing is that the material performance in some places is too high, the melting point can even exceed 10,000 degrees Celsius, and the hardness and toughness are also very high. If you want to make simple adjustments, for example, it is very troublesome to embed a small nut.

When a large and precise device needs to be manually modified, it will become very complicated. However, because there is already a core device, the process of improvement is relatively simple. In addition, there are no technical difficulties that cannot be overcome without the limitation of material properties.

So now all we need is waiting. The research and development of nuclear fusion is the most important project. Whether it is the level of attention or support, it is the highest level. It has a large number of technical talents and its work efficiency is still very high.

Zhao Yi talked with senior leaders about nuclear fusion devices. The topic they discussed was not research and development, but how to arrange the specific arrangements after the research and development of nuclear fusion devices.

Zhao Yi’s suggestion is to directly improve the technology and use it in the manufacturing of your spaceship. “I think the most important thing is to build a super-large spaceship. This spaceship does not need to explore the universe, but allows it to continuously fly around the earth, just like a space station, but it only replaces the role of the space station.”

The senior leader also nodded and said, "This platform of this large spacecraft will have great strategic significance."

Imagine it.

There is a spacecraft larger than an aircraft carrier in space, constantly flying around the earth. It carries a team of hundreds or thousands of people, a huge compartment carrying a large number of small spacecraft, and also has an independent weapon system.

That is definitely a very terrible thing.

Zhao Yi continued, "If you are building a second spacecraft, you must consider the cost."

"Aviation Group has opened a company recently, you should know that it is specializing in manufacturing small spacecraft to make up for the lack of R&D in space exploration technology."

The senior leader nodded and smiled, "I know this, you have raised a lot of funds, hundreds of billions of dollars."

Zhao Yi smiled and said, "I am very optimistic about R&D in this area, but the most important thing is to supplement the R&D direction."

This is also the truth.

The core R&D in China is all in large-scale R&D, including the R&D of aviation groups, anti-gravity technology, Z-wave technology, space link technology, controllable nuclear fusion technology, etc.

These projects are very high-end, but for the research and development of small projects, both the number of talents invested and the R&D funds allocated are relatively "poor".

It’s like developing computer technology alone and only developing the underlying operating system is definitely not possible. If you want to truly popularize computer technology, you need to develop a lot of application software.

However, there is no sharing of core technologies such as anti-gravity technology and space link technology in China. Some key projects are still kept confidential, and other institutions and private enterprises are simply impossible to develop supporting technologies.

Therefore, there is a lack of supporting technologies in the research and development of space exploration technology.

The establishment of Yixing Company has supplemented the shortcomings to a certain extent. It is best to allow small spacecraft to help future spacecraft achieve more functions and complete more tasks with the support of core technology.

For example, planet exploration.

Large spacecrafts must not land directly on the planet if they want to explore the planet. They need functional spacecraft to assist them. Whether it is material transportation or personnel transportation, small spacecrafts are needed to achieve it.

This is the technical and functional supplement completed.

While Zhao Yi was talking to senior leaders, the anti-gravity thruster finally completed the task and successfully left the space station.
To be continued...