I can see the commodity price curve

Zhang Yue led his team to continue their rapid progress in the ecological simulation project.

Leveraging its prior experience and its advantage of attracting global talent,
Several cold- and drought-resistant plants were quickly successfully cultivated in the ecological cabin simulating the lunar environment.

These plants thrive in specially formulated "soil" and artificially simulated light.

The lush green leaves thrilled the team members.

"Look, our plants are growing very well, which shows that we are on the right track."

Standing outside the ecological cabin, Zhang Yue spoke proudly to his team members through the transparent observation window,
"Next, we need to accelerate our pace, introduce more species, and build a complete ecosystem."

The experts on the team nodded in agreement, their eyes filled with anticipation and enthusiasm.

In the days that followed, they introduced a number of smaller insects.

Earthworms loosen the "soil," and bees help pollinate plants.

Initially, these insects were able to barely survive in the eco-capsule.
The ecosystem appears to be moving in a positive direction.

However, the good times did not last long.

As time went on, the problems gradually came to light.

Although the plants are still growing, their growth rate has slowed significantly.

Moreover, the leaves began to turn yellow and wither.

The number of insects is also decreasing; the once busy bees no longer fly frequently among the flowers.

Earthworms mostly curl up deep in the soil and are no longer active.

"How is this going?"

Looking at the increasingly dilapidated state of the ecological cabin, Zhang Yue frowned and asked loudly,

"Weren't things going so well before? How did it suddenly turn out like this?"

Professor Chen, a senior ecologist on the team, frowned, pondered for a moment, and then said:

"Mr. Zhang, based on our observations and analysis, we have discovered that there are serious problems with the material cycle in the current ecosystem."

The oxygen and organic matter produced by plants through photosynthesis cannot be fully consumed and converted by insects.

Furthermore, the carbon dioxide and excrement produced by insects cannot be absorbed and utilized by plants in a timely manner.

This leads to a gradual imbalance of substances in the ecosystem, affecting the survival of various organisms.

"Moreover, the environment on the moon is vastly different from that on Earth."
Although we simulated some environmental factors, many unknown factors still affect the stability of the ecosystem.

Another expert, Dr. Li, added,
"For example, the intensity of radiation on the lunar surface and the temperature difference between day and night can have unpredictable effects on the growth and metabolism of organisms."

Zhang Yue's face turned extremely ugly after listening to the experts' analysis.

He originally thought that establishing an ecosystem would be a relatively simple matter.

If you put various organisms together and provide them with suitable environmental conditions, they can naturally form a cycle.

But now it seems that things are far more complicated than he imagined.

"I don't care about these material cycles or unknown factors."

Zhang Yue said somewhat impatiently,
"You are all top experts in the world, how come you can't even handle a small ecosystem?"
In my opinion, building an ecosystem is very simple; even elementary school students can do it.

If you look at your elementary school textbooks, you'll definitely find basic knowledge about ecosystems.

From now on, all of you go find your elementary school textbooks and relearn how ecosystems are built.

The experts were stunned by Zhang Yue's words.

They hadn't expected Zhang Yue to say such a thing, and their faces showed expressions of dissatisfaction and grievance.

"Mr. Zhang, we have studied ecology for many years and accumulated a wealth of professional knowledge and practical experience."

How can you compare them to elementary school students?

Professor Chen said somewhat angrily,

"The knowledge in elementary school textbooks is just the most basic common sense, which is completely inadequate to solve the complex problems we are currently facing."

"That's right, Mr. Zhang."

Dr. Li echoed this sentiment.
"We have been working hard to find a solution to the problem, but this is not something that can be accomplished overnight."

You can't dismiss our professional capabilities so easily.

Zhang Yue ignored the experts' explanations, waved his hand dismissively, and said firmly:
"I don't care what your reasons are, you must do as I say."

If you can't even master elementary school knowledge, how can you study such a profound ecosystem?
Get moving, everyone! Don't waste your time here.

The experts sighed helplessly, though they were very dissatisfied.
But Zhang Yue was in charge of the project, so they had no choice but to obey his orders.

So everyone had to scramble to find elementary school textbooks and prepare to relearn the basics of ecosystems.

The atmosphere in the team's laboratory became very tense.

The experts sat at their workstations, holding elementary school textbooks, but they couldn't concentrate on reading them.

They felt wronged and helpless, as they felt that their years of professional research had been greatly insulted.

"Sigh, I never thought we'd end up like this, having to go back to elementary school textbooks."

Professor Chen sighed and said helplessly.

"Yes, Mr. Zhang's actions this time are really disappointing."

Dr. Li echoed this sentiment.
"We have been working our best, but this is the result we got."

While everyone was complaining, a young expert named Zhang Jiexia sat quietly in the corner.

He carefully flipped through the elementary school textbook in his hand.

She didn't participate in the discussion, but instead focused intently on every word and picture in the textbook.

Although Zhang Jiexia is still relatively young in the field of ecology.

But she has always had a strong curiosity and thirst for knowledge.

She felt that since Zhang Yue had them study elementary school textbooks, there might actually be some clues to solving the problem hidden in those textbooks.

When she turned to the section on prokaryotes in her textbook, her eyes suddenly lit up, as if she had discovered a treasure.

She read each passage carefully, the scene inside the eco-cabin constantly appearing in her mind.

"Prokaryotes, such as bacteria and cyanobacteria, have unique metabolic pathways."

They are able to survive and reproduce in extreme environments.

Bacteria can break down organic matter and convert it into inorganic matter, providing nutrients for plants;

Cyanobacteria can perform photosynthesis, producing oxygen and organic matter…

Zhang Jiexia muttered to herself, becoming more and more excited as she thought about it.

She suddenly realized that what the ecological cabin was currently lacking might be these prokaryotes.

The ecosystem formed by plants and insects is too simple and cannot achieve a full cycle of matter.

Prokaryotes can act as decomposers and producers, filling gaps in the ecosystem and promoting the cycling of matter and the flow of energy.

"I found a way!"

Zhang Jiexia jumped up excitedly and shouted loudly.

Her shout drew the attention of everyone in the lab, who put down their textbooks and looked at her with puzzlement.

"Zhang Jiexia, what solution have you found?"

Professor Chen asked curiously.

Zhang Jiexia excitedly ran to everyone with her textbook in hand and said:

"Look, elementary school textbooks introduce prokaryotes, such as bacteria and cyanobacteria."

I think we can introduce these prokaryotes into the ecological cabin.
They might be able to solve the current problem of poor material cycling in ecosystems.

The experts were taken aback by Zhang Jiexia's words, and then they all showed expressions of doubt.

"Prokaryotes? Will that even work?"

Dr. Li said with some skepticism,

“We have always focused on the study of plants and insects and have never considered introducing prokaryotes.”

Furthermore, will these microorganisms affect other organisms in the eco-chamber?

"I think I can give it a try."

Professor Chen thought for a moment and then said,

"Our ecosystem is currently at a standstill, and conventional methods do not seem to be able to solve the problem."

Introducing prokaryotes carries certain risks, but it might also yield unexpected benefits.

"But how do we introduce these prokaryotes?"

Another expert asked,
"The lunar environment is different from Earth's, so we need to find prokaryotes on Earth that are suitable for survival in a simulated lunar environment."
This is no easy task.

Zhang Jiexia smiled confidently and said:

"We can first select some prokaryotes on Earth that have strong adaptability,"
Then they are domesticated and bred in the laboratory to gradually adapt them to the simulated lunar environment.

Furthermore, we can also use gene editing technology to modify prokaryotes.
Enhance their survival ability and metabolic function.

After listening to Zhang Jiexia's detailed explanation, the experts all nodded in agreement.

Although they still had some doubts, they had no better options at the moment and could only try anything as a last resort.

So everyone immediately sprang into action.

Zhang Jiexia led a group of team members to search for suitable prokaryotic samples all over the world.

They collected samples from various environments, including soil and water, and then separated and screened them in the laboratory.

After several days and nights of hard work, they finally identified several promising prokaryotes.

This includes bacteria that can decompose organic matter and cyanobacteria that can perform photosynthesis.

Next, Zhang Jiexia and her team began to domesticate and cultivate these prokaryotes.

They simulated lunar environmental conditions in the laboratory, such as low temperature, low air pressure, and strong radiation.
This allows prokaryotes to gradually adapt to this extreme environment.

At the same time, they also used gene editing technology to modify and optimize the genes of prokaryotes.
Enhance their survival ability and metabolic efficiency.

The team encountered many difficulties and challenges during this process.

Some prokaryotes simply cannot survive in a simulated lunar environment and die very quickly;
Some prokaryotes can survive, but their metabolic functions are very weak.
It cannot decompose organic matter or produce oxygen.

"What should we do? We've screened so many prokaryotes, but haven't found a suitable one."

Dr. Li said with some frustration,

"Are we wrong?"

"Don't be discouraged, Dr. Li."

Zhang Jiexia encouraged her.

"We've only just begun, so it's normal to encounter difficulties."

We need to continue searching for more prokaryotic samples and continuously optimize the conditions for domestication and cultivation.
I'm sure I'll find the right one eventually.

Encouraged by Zhang Jiexia, the team members rallied and continued their research.

They continuously expanded the scope of sample collection, from deep-sea hydrothermal vents to high-altitude permafrost.

From deserts and Gobi to tropical rainforests, it has traveled to almost every corner of the earth.

At the same time, they continuously improved the methods of domestication and cultivation, and tried different culture media and cultivation conditions.

Finally, a method suitable for prokaryotes to survive and reproduce in a simulated lunar environment has been found.

After several months of hard work, the team finally succeeded in domesticating and cultivating several prokaryotes that can survive stably and metabolize efficiently in a simulated lunar environment.

"Next, we will introduce these prokaryotes into the ecological chamber to see if they can improve the condition of the ecosystem."

Zhang Jiexia said excitedly.

With Zhang Yue's consent, the team members carefully introduced the cultured prokaryotes into the ecological chamber.

They closely observed the changes inside the ecological cabin, their hearts filled with anticipation and tension.

Initially, there were no obvious changes in the ecological cabin.

Plants are still growing slowly, and insects are not very active.

But after a few days, the situation began to gradually improve.

The plant's growth rate has accelerated significantly, and the leaves have become greener and shinier;

Insects also became active, with bees busily flitting among the flowers.
Earthworms wriggle happily in the "soil".

"Great! Our method worked!"

Zhang Jiexia shouted excitedly.

The team members cheered, their hearts filled with a sense of accomplishment as they looked at the vibrant scene inside the eco-cabin.

Zhang Yue was also very happy to hear the news.

He arrived at the laboratory, looked at the changes in the ecological cabin, and a gratified smile appeared on his face.

"Zhang Jiexia, you did a fantastic job this time!"

Zhang Yue walked up to Zhang Jiexia, patted her on the shoulder, and said,
"I never thought that the knowledge in elementary school textbooks could actually solve our big problems."

It seems my previous thinking was somewhat one-sided; I shouldn't have dismissed your professional abilities.

Zhang Jiexia smiled and said:
"Mr. Zhang, actually, this isn't entirely thanks to elementary school textbooks."

In the course of our research, we still made use of a lot of professional knowledge and technology.

Elementary school textbooks merely provided an inspiration, leading us to consider introducing prokaryotes as a method.

Zhang Yue nodded and said:
"You're right. This experience has taught me a lesson,"
Both professional and basic knowledge have their value.

We must not underestimate any kind of knowledge, and we should be adept at finding clues to solve problems from different sources.

"Moreover, this success is also inseparable from the efforts of every member of the team."

Zhang Yue continued.

"When faced with difficulties and setbacks, everyone did not give up, but united as one."
Let's work together to find solutions to the problem.

This spirit is invaluable and deserves to be carried forward.

The team members nodded in agreement after hearing Zhang Yue's words.

They knew that this success was just the beginning, and many more challenges awaited them in the future.

However, they also firmly believe that under Zhang Yue's leadership and with the joint efforts of the team members,
They will surely overcome the difficulties and achieve the great goal of a large-scale human lunar landing.

Over time, the ecosystem within the eco-cabin becomes increasingly stable.

Plants, insects, and prokaryotes form a complete system of material cycling and energy flow.
Various organisms depend on and restrict each other, working together to maintain the balance of the ecosystem.

"Our ecosystem has finally succeeded!"

During a team meeting, Zhang Yue excitedly said,

"This is the result of our team's joint efforts and an important milestone in humanity's exploration of space."

Next, we need to continue optimizing the ecosystem to improve its stability and adaptability.
To prepare for the long-term survival and development of humans on the moon.

The team members applauded, their faces beaming with confidence and determination.

After the ecosystem in the eco-cabin achieved stability and success
Zhang Yue's team embarked on a new journey without stopping—studying gravity problems.

After all, the moon's gravity is only one-sixth that of Earth.

This presents a formidable challenge for human migration to the moon.

Dr. Wang, who is in charge of physics research in the team, was the first to step forward.
He said to everyone with great confidence:

"Ladies and gentlemen, although the problem of gravity is thorny, it is not unsolvable."

We can start by simulating the lunar gravity environment.
Let's see what physiological changes occur in the human body under these conditions.

Then we can look for targeted solutions.

Everyone nodded in agreement, and the team quickly built an experimental chamber simulating lunar gravity.

This experimental chamber utilizes advanced centrifugation technology to accurately simulate the lunar gravity environment.

On the first day of the experiment, team member Xiao Li volunteered to be the first person to enter the experimental chamber.

He wore a specially made lab coat and slowly walked into the experimental chamber.

The moment the experimental module was activated and the simulated lunar gravity took effect...
Xiao Li felt his body become light and airy, as if he had lost his balance.

He tried hard to stand firm, but still staggered a few steps and almost fell.

"Xiao Li, how are you feeling?"

Dr. Wang asked anxiously through a communication device outside the experimental chamber.

"Dr. Wang, I...I feel a little dizzy, and my body is out of control."

Xiao Li answered, his voice trembling slightly.

"Don't rush, take your time to adapt and adjust your state gradually."

Dr. Wang offered words of comfort.

Xiao Li struggled to adapt inside the experimental chamber; he tried walking and jumping.
Every movement seemed so clumsy and laborious.

Time ticked by, and an hour later, Xiao Li finally couldn't hold on any longer.
A request was sent to Dr. Wang to end the experiment.

"Dr. Wang, I really can't go on anymore. I feel like my head is about to explode and my body is about to fall apart."

Xiao Li said wearily.

Dr. Wang quickly stopped the experiment and helped Xiao Li out of the experimental chamber.

As soon as Xiao Li came out, he collapsed to the ground, panting heavily.

"It seems that the human body has difficulty adapting to such a sudden change in gravity in a short period of time."

Dr. Wang frowned, lost in thought. Over the next few days, the team arranged for other volunteers to enter the experimental chamber to conduct experiments.

However, the results were not satisfactory.

Some people experienced severe dizziness and nausea.
Some people experience muscle soreness and weakness, and some even get injured due to loss of balance.

"This can't go on; we have to come up with a new solution."

Zhang Yue looked at the experimental data, his brows furrowed, and said seriously.

At this point, Engineer Zhao, a mechanical expert on the team, proposed an idea:
"Mr. Zhang, could we design a special device?"

How can it help the human body maintain balance and stability in the lunar gravity environment?

For example, a wearable exoskeleton device,
It can automatically adjust its force output based on the body's movements and changes in gravity, assisting the body in various activities.

Upon hearing Engineer Zhao's idea, Zhang Yue's eyes lit up, and he said:

"This is a good idea, very creative."

"Engineer Zhao, immediately organize a team to begin developing this exoskeleton device."

After receiving the order, Engineer Zhao immediately led his team into the intense research and development work.

They worked day and night in the laboratory, constantly designing and experimenting.

After several months of effort, the first generation of exoskeleton equipment was finally developed.

This exoskeleton device looks like a high-tech suit of armor.
It covers the major joints and muscles of the human body.

Through sensors and a power system, it can sense human movement and changes in gravity in real time and react quickly.

"Now, let's find a volunteer to test the effectiveness of this exoskeleton device."

Zhang Yue said.

Volunteer Xiao Zhang volunteered to step forward.

After putting on the exoskeleton device, he entered the experimental chamber with the help of others.

When the experimental module is activated and the simulated lunar gravity takes effect...

Unlike the other volunteers, Xiao Zhang did not experience any loss of physical control.

He tried walking, bending over, and lifting his legs, and his movements seemed quite natural.

"Wow, this exoskeleton device seems to really work!"

The team members cheered excitedly.

However, the good times did not last long.

Further experiments revealed that the exoskeleton device still had many problems.

For example, its power system is not stable enough, and it often experiences insufficient power or sudden loss of control.

Moreover, it is quite heavy, which puts an extra burden on the body when worn.
Prolonged use can cause significant fatigue.

"It seems that this exoskeleton device still needs further improvement."

Zhang Yue said calmly,
"Engineer Zhao, please continue to optimize this equipment and resolve these issues."

Engineer Zhao and his team once again threw themselves into the intense research and development work.

They upgraded the power system of the exoskeleton device.

More advanced battery technology and power transmission devices were adopted.

This improved the stability and battery life of the device.

At the same time, they also optimized the structure of the equipment, reducing its weight.

To make it lighter and more comfortable.

After a period of effort, the second-generation exoskeleton device was successfully developed.

This time, when volunteers put it on and entered the experimental chamber, the effect was significantly better than the first generation.

Volunteers can move freely in the experimental chamber and perform various complex actions without feeling overly fatigued.

"Great, this exoskeleton device has finally made significant progress."

Zhang Yue said with satisfaction.
"However, we cannot be satisfied with this; we must continue testing and improvements."
Ensure it can operate reliably in a real lunar environment.

Therefore, the team conducted extensive testing and experiments on the second-generation exoskeleton device.

They simulated various different lunar environments and mission scenarios.
Volunteers wear the equipment for extended periods of time.

However, new problems arose during the testing process.

It turns out that the environment on the moon's surface is extremely complex, in addition to the issue of gravity.
There are also a lot of dust, radiation and other factors.

These factors have had a significant impact on the normal operation of exoskeleton devices.

For example, lunar dust can enter the device's interior, clogging sensors and power systems, causing the device to malfunction;
Strong radiation can damage the electronic components of the equipment, affecting its performance and lifespan.

"What are we going to do? We finally managed to solve the problems of gravity adaptation and equipment power and weight."

Now, new challenges have emerged.

Engineer Zhao said anxiously.

"Don't worry, everyone. Let's analyze these problems together and see if we can find a solution."

Zhang Yue offered words of comfort.

The team members sat together and began a lively discussion.

After a heated discussion, some possible solutions were proposed.

For example, sealing the exoskeleton device to prevent lunar dust from entering;

Use radiation-resistant electronic components and materials to improve the equipment's radiation resistance;

Additionally, cleaning devices can be installed on the equipment to regularly remove dust that has entered the equipment.

Based on these plans, Engineer Zhao and his team made further improvements to the exoskeleton device.

They spent a great deal of time and effort meticulously designing and manufacturing every component of the equipment.

After several months of effort, the third-generation exoskeleton device has finally been developed.

This time, the team had full confidence in the device.

They again arranged for volunteers to enter the experimental chamber wearing the equipment.
It also simulated more complex lunar environments and mission scenarios.

During the hours-long test, the exoskeleton device maintained stable operation throughout.
No malfunctions occurred.

The volunteers were able to complete various tasks smoothly and with fluid movements.

"Success! We finally succeeded!"

The team members cheered excitedly, their faces beaming with pride and joy.

However, just as everyone was basking in the joy of success, new problems arose one after another.

When the team was ready to mass-produce and apply the exoskeleton device...

They discovered a serious problem—the cost was too high.

The third-generation exoskeleton device utilizes a large number of high-tech materials and advanced manufacturing processes.
This makes its manufacturing cost very high.

The cost of equipping such devices on a large scale for future lunar colonists would be astronomical.

"What can we do? Our budget simply cannot cover such high costs."

Zhang Yue frowned and said with a worried expression.

"Mr. Zhang, could we find some alternative materials and a simpler manufacturing process?"
To reduce equipment costs?

Ms. Liu, an economics expert on the team, offered a suggestion.

Zhang Yue nodded and said:
"This idea is feasible. Ms. Liu, please organize a team to study this issue immediately."
Let's see if we can find a suitable solution.

At the same time, we should not stop researching and improving exoskeleton devices.

We will continue to improve its performance and reliability.

In the days that followed, the team split into two groups.

Led by Ms. Liu, the team began searching for ways to reduce equipment costs.

The other team continued to optimize and improve the exoskeleton equipment.

Ms. Liu and her team conducted in-depth research and analysis on various materials on the market.

They discovered some relatively inexpensive alternative materials that still met the performance requirements.

At the same time, they also collaborate with some manufacturing companies to jointly develop simpler manufacturing processes.
To improve production efficiency and reduce manufacturing costs.

After a period of effort, Ms. Liu's team finally made some progress.

They found some suitable alternative materials and manufacturing processes.
Preliminary estimates suggest that the cost of exoskeleton devices can be reduced by about half.

"This is really good news!"

After listening to Ms. Liu's report, Zhang Yue smiled with satisfaction.

"However, we still need to conduct further testing and verification of these alternative materials and manufacturing processes."
Ensure they do not affect the performance and quality of the equipment.

Therefore, the team conducted extensive testing and experiments on the exoskeleton devices produced using alternative materials and manufacturing processes.

However, during the testing process, they discovered that new problems had arisen.

Although alternative materials are cheaper, they are not as durable or stable as the original materials.

After a period of use, the equipment is prone to wear and tear and malfunctions, affecting its normal operation.

"It seems that we cannot sacrifice the performance and quality of equipment just to reduce costs."

Zhang Yue said seriously,
"Ms. Liu, please continue your search for better alternative materials and manufacturing processes."
We must reduce costs as much as possible while ensuring equipment performance and quality.

Ms. Liu nodded and said:

"Mr. Zhang, please rest assured, we will continue to work hard."

At the same time, the team responsible for optimizing and improving the exoskeleton equipment also encountered some difficulties.

In the process of improving equipment performance, they discovered that as the equipment's functions continued to increase and improve,

The increasing complexity of equipment presents significant challenges to its maintenance and repair.

"If the equipment malfunctions on the moon, it will be difficult for us to repair and replace parts in a timely manner."

This will have a significant impact on the lives and work of immigrants.

"I'm worried," said Mr. Sun, a repair expert in the team.

"This problem is indeed very serious."

Zhang Yue said,

"We must improve equipment performance while also considering its maintainability and repairability."

Let's all think of a solution together.

The team members started another brainstorming session.

After some discussion, everyone came up with some possible solutions.

For example, modular design can be used to divide the equipment into multiple independent modules.

This allows for easy replacement and repair when a module malfunctions;
Additionally, a self-diagnostic system can be installed on the equipment to monitor its operating status in real time.
Timely detection of potential faults and early warnings.

Based on these plans, the team made further improvements to the exoskeleton device.

They adopted a modular design concept, dividing the equipment into multiple independent modules such as a power module, a sensor module, and a control module.
Each module has been standardized in design to facilitate replacement and maintenance.

At the same time, they also installed an advanced self-diagnostic system on the equipment.
It can monitor various parameters of the equipment in real time and detect potential faults in a timely manner.

After a period of effort, the improved exoskeleton device was finally successfully developed.

This time, the team conducted comprehensive testing and experiments on the device.

This includes performance testing, cost testing, and maintainability testing.

Test results show that this device has achieved further performance improvements.

Costs have been effectively controlled, and maintainability and repairability have been greatly enhanced.

"Great! This equipment finally meets our requirements."

Zhang Yue said excitedly,
"However, we still need to conduct more field tests to ensure that it can operate reliably in a real lunar environment."

Therefore, the team began to actively prepare a plan to send the exoskeleton device to the moon for field testing.

However, the implementation of this plan has been fraught with difficulties.

Sending the equipment to the moon will require a significant amount of money and resources.

Furthermore, we still need to wait for a suitable space launch window.

"What are we going to do? We've waited so long, and finally developed the right equipment."

However, it could not be sent to the moon for testing in time.

The team members felt frustrated and helpless.

Just when everyone was at a loss, Zhang Yue stepped forward with a smile.

He looked at everyone and said earnestly:

"Everyone, I know that you have put in a lot of effort and encountered many difficulties and setbacks in solving this gravity problem."

However, we cannot give up just because of the difficulties we face.

Since we cannot successfully send the equipment to the moon for field testing, let's put this plan on hold for now.

The team members were stunned by Zhang Yue's words, and all looked puzzled.

"Mr. Zhang, we've come this far, how can we give up so easily?" Dr. Wang said anxiously.

Zhang Yue smiled and said, "Don't worry, everyone, I don't really want to give up."

I think that in the process of studying gravity, we have been trying to use scientific and technological means to solve the problem of human beings adapting to the gravity of the moon.

Although we have made some progress, we have also encountered many insurmountable difficulties.

Actually, we've overlooked a very important issue—human beings' own adaptability.

"It's a perfectly normal thought that people who are used to living on Earth would find it difficult to adapt to the gravity of the moon."

However, the moon is different from Earth, and its gravitational environment is something we cannot change.

Since technology cannot completely solve this problem, why don't we trust human beings themselves?

Humans have a strong ability to adapt to their environment. I believe that once everyone goes to the moon, they will definitely be able to adapt to the gravity environment there very quickly.

Zhang Yue said firmly.

After listening to Zhang Yue's words, the team members fell into deep thought.

After a while, Dr. Wang broke the silence first: "Mr. Zhang, what you said makes sense."

We have relied too much on technological means and neglected the potential of human beings themselves.

Perhaps we should really change our approach and focus on how to help immigrants improve their adaptability.

Zhang Yue nodded and said, "That's right."

We can organize some professional training courses to provide immigrants with systematic training before their departure.

To improve their physical fitness and balance, and enhance their ability to adapt to different gravity environments.

At the same time, we can fully consider ergonomic principles in the design and construction of the lunar base.

To create a more comfortable and convenient living and working environment for immigrants.

The team members unanimously agreed with Zhang Yue's idea.

Therefore, the team began to adjust its research direction, focusing on helping immigrants improve their adaptability.

They invited professional sports training experts and medical experts to design a comprehensive training program for immigrants.

This program includes multiple aspects such as physical training, balance training, and psychological training.

The aim is to improve the physical fitness, balance, and mental well-being of immigrants, and enhance their ability to adapt to the lunar gravity environment.

At the same time, the team also collaborated with architectural design experts to optimize the design of the lunar base.

They set up simulated areas with different gravity environments inside the base, allowing the settlers to gradually adapt to the lunar gravity changes within the base.

Moreover, all facilities and equipment within the base are designed and laid out according to ergonomic principles to facilitate use and operation by immigrants.

With the team's joint efforts, the new research plan is progressing smoothly.

Over time, the training of immigrants has yielded remarkable results.

Their physical fitness has greatly improved, and their balance has also been significantly enhanced.

During training in a simulated lunar gravity environment, they were able to perform various activities freely, no longer as clumsy and strenuous as they had been at the beginning.

"I am very pleased to see everyone making such progress."

During a training observation activity, Zhang Yue smiled and said to the immigrants,
"I believe that when you finally land on the moon, you will be able to adapt to the environment there quickly."
To create a glorious future for humankind on the moon.

Upon hearing Zhang Yue's words, the immigrants all smiled confidently.

They knew that although the road ahead was still full of unknowns and challenges,
But they are confident that with the help of Zhang Yue's team, they can overcome difficulties and achieve the great goal of a large-scale human lunar landing.

Zhang Yue's team also gained a lot of valuable experience and lessons in the process of studying gravity.

They realized that while technological means are important in the exploration of space, the human factor is equally indispensable.

Only by combining science and technology with human potential can we better address various challenges and continuously advance the cause of human space exploration.

As time went on, the countdown to a large-scale human moon landing program gradually began.

Zhang Yue's team and the immigration staff are working hard to make the final preparations.

They knew that an unprecedented and great journey was about to begin, and they would be the pioneers and witnesses of this journey.

In the days to come, everyone will join hands to write a new chapter for humanity on the moon. (End of Chapter)