Disputes are debates, at least scientists have discovered them.

Among the many major discoveries that support gravitational field theory, dark matter is definitely the most critical.

Scientists have long suggested that 98% of the mass in the universe are unobserved dark matter, and the bright matter observed by humans only accounts for 2%. If matter is equal to energy, then dark matter that accounts for 98% of the total mass of the universe is likely to exist in the form of energy. However, before this, the energy fields observed by humans should belong to the category of bright matter.

In other words, there is an energy field in the universe that humans have not observed!

The gravitational field theory just gives a reasonable explanation, that is, dark matter is a gravitational field, and it is everywhere. However, in the universe, the action of the gravitational field has isotropic characteristics, so far away from the celestial body, the gravitational field is affected very weakly, and after the interaction is cancelled, it manifests as zero gravity. Because it only cancels the interaction in the same direction, the gravitational field still exists.

To put it bluntly, the gravitational field filled with universe space itself is a huge energy field.

This theory also explains the properties of the universe itself, that is, the universe manifests itself as three-dimensional space, and the gravitational field works in three-dimensional.

According to the gravitational field theory, some young scientists have proposed that methods and methods should be found to utilize gravitational field.

Of course, this is no longer a category of theoretical research, but applied physics.

It must be admitted that these theories are advanced, but Lu Wen prohibits anyone from publishing research results until they are fully proved.

It is completely understandable to do this, because no one knows whether gravitational field theory can be proved.

If it can be proved, then general relativity will be suspected, a new era will come, and human civilization will make a big leap. If it cannot be proved, it will be just a failure in theoretical exploration, and human beings have encountered many failures.

More importantly, this theory itself is not perfect.

At that time, some scientists had proposed that they should be proved through experimental means, and the most direct way was to create an electromagnetic field large enough to confirm that the gravitational field had significant changes under the interference of the electromagnetic field, thereby proving that the electromagnetic field and the gravitational field have mutual influence characteristics.

However, this experiment is still not enough to prove the gravitational field theory.

The best proof should come from astronomical observation. If a supernova explodes and its impact on surrounding celestial bodies exceeds the impact of the celestial bodies when the gravitational field collapses, that is, the impact of the gravitational field collapses, it can prove that the electromagnetic field generated during the supernova explosion has an impact on surrounding celestial bodies, and it can also prove that the electromagnetic field affects the gravitational field. The gravitational theory supported by general relativity is wrong, thus proving that the gravitational field theory is correct.

Unfortunately, such a astronomical wonder is hard to come by.

Because it is a scientific research project directly funded by the military and is managed by the state, relevant application research is also underway when conducting theoretical research.

To put it bluntly, applied research is based on gravitational field theory.

If the gravitational field theory is correct, then you only need to find a means to interfere with the gravitational field, or to say, shield the gravitational field to obtain energy. Theoretically, if you can shield the gravitational field in a certain direction, to be precise, it is to shield the action of the gravitational field in a certain direction, in theory, humans can reach the speed of light, and without using other known energy.

This is definitely a substantial leap for aerospace.

If the energy field that acts on neutrinos can be found and utilized, it is theoretically impossible to surpass the speed of light.

However, the research on related aspects is not optimistic.

The known method is to achieve a strong magnetic field, and to achieve the level of shielding the gravitational field, it is not enough to use various energy sources that humans have already mastered.

It can be said that this is a very frustrating study result.

However, scientists did not give up because they believed that there was always a way that existed, but it had not been discovered. Just as Edison invented the incandescent lamp after conducting more than a thousand experiments, as long as he continued to study, he might be able to make a breakthrough one day.

Of course, there are also some scientists, especially young scientists, who are more optimistic.

Since it has made significant breakthroughs in theory, it is only a matter of time to become reality. After Einstein proposed the special theory of relativity, nuclear weapons were born only more than twenty years later. After the general theory of relativity was released, it was proved only ten years later.

The gravitational field theory has just been proposed, and to be precise, it is not easy to prove it naturally.

Because the scope of functions is expanded, basic theory is only one of the scientific research directions of Lu Wen's responsible department.

At that time, the department was also responsible for an extremely important project: the anti-cancer biological gene project.

It can be said that this is a world-class popular scientific research project.

Because before this, Chinese scientists had already understood the role of "sun weapons" and to be precise, the impact of particle radiation was affected, so from the very beginning, they focused on genes, rather than European and American scientists, who focused on vaccines.

Relatively speaking, this kind of applied scientific research is much easier.

More than ten years ago, major countries completed the human gene map project, had enough knowledge of human genes, and had a clearer understanding of the body's immunity through genetic modification, and even the ability to fight cancer. All we need to do is to understand the actual role of each gene pair as soon as possible.

In this way, genetic engineering actually becomes a competition for financial and human resources.

At that time, there were as many as 24,000 scientists involved in the project, and there was still insufficient manpower. The investment was even greater, reaching 140 billion yuan in 2035 alone, mainly used to purchase various scientific research equipment. Of course, only in special periods can it be so crazy. If we were to say that more than 20,000 scientists were mobilized and so much research funding was used, even similar scientific research projects would not be approved.

Huge investment brings huge reports.

According to reports submitted by various scientific research groups, at the latest by the end of 2036, the first anti-cancer drug, that is, a genetically modified drug for leukemia, will enter the clinical trial stage. It is expected to be completed by the end of 2037 or early 2038. If the drug is proven to be effective, then leukemia will no longer be an incurable disease.

Research in other aspects has also made significant progress, and results can be achieved within three to five years.
Chapter completed!