Structure of Dark Matter of Solar System

New Observation of Structure of Solar System Supports My Idea of Dark Comet Belt Outside Kuiper Belt And Structure of Dark Matter Structure of Solar System 2025

In this article, I proposed:

  1. Dark matter is spacetime,
  2. The mass density of dark matter (mass/unit spacetime) is very low; while the spacetime density of dark matter (spacetime/unit mass-energy) is very high. Since the mass density of fluid is very low, the dark matter content of fluid is higher (compared to solid),
  3. Dark matter has a spacetime center (in the mass-energy coordinate system),
  4. There is dark matter in the solar system,
  5. Jovian planets are dark matter planets, so Jovian planets are the center of spacetime. NASA discovered that Jovian planets are fluid centers, that is, spacetime centers.
  6. In the Milky Way, it is even believed that local bubbles are found in all galaxies. The mass density of local bubbles is much lower than the average mass density of the universe, which confirms my point of view that local bubbles are spacetime, that is, dark matter.
  7. The average mass density of various galaxies should be higher than the average mass density of the universe. The density of local bubbles is very low, and only my mass-energy and spacetime balance theory can explain this phenomenon.
  8. When I explained that Jovian planets are dark matter and terrestrial planets are ordinary matter, I proposed that the asteroid belt between them is their intermediate belt, and then proposed that there are two asteroid belts (or comet belts) in the solar system, one of which is the Kuiper belt, and the other, I gave a picture to describe its approximate location. NASA discovered a new asteroid belt or comet belt at this location. This proved my point.
  9. Based on the relationship between dark matter and fluid, I used elastic force (buoyancy) to explain the phenomenon of flat straight line segments in the stellar spin curve caused by dark matter. Here, the relativistic field equations and Newtonian mechanics equations and Newtonian gravity equations were modified.
  10. Further, I found that the speeds of distant asteroids and comets in the solar system also have the problem of flat straight line segments in the spin curve. If the flat straight line segments are caused by dark matter, this once again proves my hypothesis that there is dark matter in the solar system. And dark matter affects the orbits of asteroids.
  11. In 2012, I proposed that asteroids, comets, and dark comets may hit the earth in 2032 or 2030. NASA’s new observations also prove this point.

By comparing the two scientific observations, we can find the contradictions in the subject theory.

On the one hand, because it is observed that the empty space of the galaxy can produce a large special gravity, it is assumed that there is a large amount of dark matter in the empty space of the galaxy. Since there is a large amount of dark matter in the empty space of the galaxy, the material density in the empty space of the galaxy will be very high. However, new observations have found that the empty space of the galaxy is a local bubble with a very low density, which is lower than the average density of the universe. According to Newton’s theory, the empty space of the galaxy has a low density and will not produce strong gravity. However, observations have proved that the empty space of the galaxy can produce strong special gravity – that is, the gravity of dark matter.

On the other hand, Newton’s gravity requires that gravity is inversely proportional to the square of the radius, while dark matter causes gravity to be proportional to the radius. Therefore, dark matter is not “Newtonian matter”, that is, dark matter cannot be explained by Newton’s theory. We believe that dark matter is space-time. The anti-gravity of dark matter, that is, the elastic force of space-time, is used to explain the phenomenon that the gravity caused by dark matter is proportional to the radius. At the same time, it is explained that the low density of the empty space of the galaxy can also produce a large dark matter gravity.

在这个文章中,我提出:

  1. 暗物质是时空,

2. 暗物质的质量密度(质量/单位时空)很低;而暗物质的时空密度(时空/单位质能)很高,由于流体的质量密度很低,因此(对比固体)流体的暗物质含量较高,

3. 暗物质有时空中心(在质能坐标系),

4. 太阳系有暗物质,

5. 类木行星就是暗物质行星,因此类木行星是时空中心,NASA发现类木行星是流体中心,即时空中心。

6. 在银河系甚至认为在所有星系都发现本地泡。本地泡的质量密度比宇宙平均质量密度还低很多,这就印证我的观点,本地泡是时空,也就是暗物质。

7. 星系各处的平均质量密度应该比宇宙平均质量密度高。而本地泡密度质量很低,只有用我的质能和时空平衡理论才能解释这个现象。

8. 我在解释类木行星是暗物质,而类地行星是普通物质时,提出他们中间的小行星带是他们的中间带,进而提出太阳系还存在两个小行星(或彗星带),其中一个是柯伊伯带,而另一个,我给出一副图,描述了他的大概位置。NASA发现在这个位置有一个新的小行星带或彗星带。从而证明了我的观点。

9. 我根据暗物质与流体的关系,用弹性力(浮力)解释了暗物质造成的恒星自旋曲线中出现平直线段的现象。这里修改了相对论场方程和牛顿力学方程,牛顿引力方程。

10. 进一步我发现太阳系的遥远小行星和彗星的速度也有自旋曲线中的平直线段问题。如果平直线段是暗物质造成的,这就再次证明我认为太阳系有暗物质的假说。并且暗物质影响小行星的轨道。

11. 我2012年提出2032年,2030年可能有小行星,彗星,暗彗星撞击地球。NASA新的观测也证明了这个观点。

我们通过比较两个科学观测,就会发现学科理论的自相矛盾。

一方面,因为观测到星系空处可以产生很大的特殊引力,因此假设星系空处有大量暗物质。星系空处既然有大量暗物质,星系空处的物质密度就会很高。而新的观测发现星系空处是本地泡,其密度很低,本地泡的密度比宇宙平均密度低。根据牛顿理论,星系空处密度低,就不会产生强大的引力。而观测证明,星系空处可以产生强大的特殊引力-即暗物质引力。

另一方面,牛顿引力要求引力与半径的平方反比,而暗物质导致引力与半径正比。因此暗物质不是“牛顿物质”,即用牛顿理论不能解释暗物质。我们认为暗物质是时空。用暗物质的反引力即时空弹性力,解释暗物质导致的引力与半径正比的现象。同时解释,星系空处密度低,也可以产生大的暗物质引力。