DISTANCES OF THE PLANETS FROM THE SUN

DISTANCES OF THE PLANETS FROM THE SUN

Mercury - 58 million km;

Venus - 108 million km;

Earth - 150 million km;

Mars - 228 million km;

Jupiter - 778 million km;

Saturn - 1.43 billion km;

Uranium - 2.87 billion km;

Neptune - 4.5 billion miles;

Pluto - 5.95 billion miles.

The distance of planets to the center of the star (spawned them), as well as their rotation, is related to the formation of the Field of Repulsion (ethereal shield) in the heated area of the planet. However, unlike the speed of rotation of the planet, the distance is caused not by to heating rate and directly by the magnitude of the Field of Repulsion arising in response to the heating by solar radiation.

The larger this magnitude, i.e. more is the rate of emission of ether, the farther from the star a planet will be located.

All planets in our solar system have now one or another angle of inclination of their rotation axis to the ecliptic plane. Inclination of the axis of rotation is due to the fact that the substance of the planet warms by solar radiation (accumulates particles with Fields of Repulsion). Substance in the equatorial plane of the planet warmed up to the greatest extent. This is explained by the fact that at the beginning of life on the planet, when it just started to rotate, the axis of rotation is perpendicular to the line drawn through the center of the Sun and the center of the planet. So, the inclination of the axis indicates that at the planet in the equatorial region and adjacent areas there is formed a continuously existing Field of Repulsion. The Field of Repulsion of a planet is formed by particles with the same Fields accumulated on the surface of chemical elements of the atmosphere - lingering in the composition of the surface layers of the planet. Actually, it is because of this constant Field of Repulsion planet “lean”.

For what it's been said? Yes to the fact that when we talk about a Field of Repulsion (ethereal shield), the value of which determines the distance of the planet to the Sun, then we are talking about a Field of Repulsion that exists in the planet's equator, as it is the largest in magnitude.

I.e. the magnitude of exactly this Field of Repulsion arising in the equatorial plane, and just will allow to estimate the distance between the planet and the sun. The greater the magnitude of this field Repulsion – i.e. the higher is the rate of emission of ether by the equator of the plane, the greater the distance between the planet and the Sun.

The planets in the solar system can be likened to balloons. The air inside the balloon dome is heated by the burner flame and thus the balloon is moving away from the planet's surface (i.e. from its center). Only in the case of planets the Sun itself plays the role of the burner.

Let's think about why all planets move away from the Sun.

First, we should remind ourselves that the farther away from the Sun, the smaller the number of solar particles reaching this point.

So, during the heating of the substance of equator region, the Field of Repulsion of this area is growing. Due to the fact that solar particles accumulated in the surface layers linger there longer. Increase of Field of Repulsion says that the rate of emission of ether becomes greater than the rate at which ether moves to the Sun (i.e. greater than the sun's Gravity field at a given point). If the planet emits ether faster than it is attracted by the sun, it begins to move away. However, as already mentioned, with increasing of the distance from the sun there is a decrease of solar particles reaching the planet. This means that the rate of distancing of any planet from the Sun gradually decreases with increase of its distance from the Sun. I.e. the distancing of planets slows down, as they move away. We can say that there is a feedback mechanism. The farther from the Sun, the less of solar particles reach the planet, and due to this the magnitude of the Field of Repulsion formed by the planet decreases. As a result, there is no fast departure of the planet from the Sun. No, all planets move away gradually, slowly.