For the first time I will talk about the moons of the Sun and add to science. In the solar system, all objects revolve around the sun. Some of them are solar planets and some are solar moons. Usually, the moons of the sun are located in the outermost layers of the solar system.

The total mass of the moons of the sun is less than the total mass of the planets of the sun. I calculated the mass difference with the formula.

The reason for separating the solar moons from the planets: because many events of the solar system and science (electricity, ions, radioactive rays, etc.) happen only through the moons.

Simultaneously with the formation of the core of the sun, the rings are formed in the order of the closest to the sun. And at the same time, different masses of planets and moons of the sun are formed in each ring

The total mass of each ring is proportional to the strength of the Sun's core.

Sun planet = any body that revolves around the sun. From the smallest atoms, gases and soil to the largest objects. There is a direct connection between the core of the planets and the core of the sun. The greater the distance between the planet and the sun, the faster the planet rotates. What we see from the rotation inside the planets is just the rotation of the planet's crust. There is a difference between core rotation and planetary rotation.

The moons and planets of the sun all revolve around the sun.

The difference between the moons of the sun and the planets of the sun in the solar system:

1- All properties of the planet's core are directly related to the sun. While some of the characteristics of solar moons are separated from the sun.

2- The neutrino wave is not emitted from the sun's moons, while the neutrino wave is emitted from the planets.

3- The rotation of the planet's core is directly related to the sun's core, but the relationship between the rotation of the sun's moons and the sun is messed up.

4- Moons of the sun = any object that revolves around the sun at the same time as the sun. As a result, one side of them always faces the sun.

5- The sun and each of the sun's moons rotate in pairs. That is, each rotates around the other (like the rotation of the moon and the earth).

6- The internal rotation of each of the sun's moons is zero. Because their core has cooled and their connection with the core of the sun has been cut off.

7- Any planet that leaves its ring and enters another ring changes its nature and becomes a moon of the sun, and any object that enters the solar system and revolves around the sun joins the moons of the sun.

8- Most of the moons of the sun are located in the outer rings of the sun and the possibility of hitting the surface of the sun is very high.

As the distance between the sun's moons increases, their orbits become longer.

The narrower the orbit, the greater the possibility of movement between the rings of the sun. For example, solar moons located in the 10th ring of the Sun intersect the second ring And it passes by the planet earth.

9- As the number of moons of the sun increases, contact with the surface of the sun and the surface of the planets increases. And the probability of the collapse of the sun and the solar system increases.

10- Mercury is not a solar planet. Mercury is a solar moon.

During the first impulse of the Sun's core, Mercury separated from the Kuiper belt between Mars and Jupiter (the beginning of the third ring of the Sun) and entered the environment of the planet Venus (the first ring).

In the next big shock of the sun, Mercury is separated from the environment of the planet Venus and enters the environment below the first ring of the sun and wanders.

Important note: When Mercury was at the beginning of the third ring and the Kuiper belt, it was the Sun planet. And its internal rotation was about 10 hours.

Most likelyit will hit the sun in the next shock and cause a lot of damage to the earth. Proof by me with exact formulas.

11- Planets and moons of the sun follow Kepler's laws in any position.