DEPENDENCE OF INTENSITY OF SOLAR RADIATION FROM SOLAR LATITUDE

DEPENDENCE OF INTENSITY OF SOLAR RADIATION FROM SOLAR LATITUDE

The equatorial plane of the Sun is an area of maximum intensity of solar radiation. This is due to the fact that the solar equator is best "warmed up" by the "energy" of the nucleus of the galaxy. Accordingly, the polar regions of the Sun (and of other stars) warmed up by the "energy" of the galactic nucleus worst.

The Sun (i.e. the central celestial body in our solar system) to the nucleus of the galaxy is the same than the planets are in relation to the star. And the stars are also receivers of radiation of "energy" of the galactic nucleus like planets are the receivers of the radiation from stars.

The nucleus of the galaxy - is the central celestial body of our Galaxy. The Nucleus of Galaxy also has an area of equator, which coincides with the plane of the orbits of stars around the Galactic Nucleus.

Concentration of solar radiation in the solar equator is maximal. This is due to the fact that the "energy" of the Galactic Nucleus, reflected by the sun joins to the radioactive "energy" of the Sun. And at the equator a maximal amount of energy is reflected because this region is most "warmed up". 

The same can be said about the concentration of radiation of Galactic Nuclei, Nuclei of Supergalaxy and the Central Celestial Body of the Universe. And also about planets, as they also emit own radioactive "energy" and reflect the energy of stars.

The orbits of stars around the Nucleus of the Galaxy are located approximately in one plane as the planets' orbits are located in one plane.

The crust is formed by: first, non-radioactive elements with the heaviest nuclei of those that erupt on the surface of planets, and secondly, the compounds of these elements with the elements with lighter nuclei. Over the crust there is a shell consisting of elements with the lightest nuclei - the lithosphere and the hydrosphere.

The cause of periodic heating and cooling of each element on the surface of the planet is the rotation of the planet around the star and around its own axis. Physical state of chemical elements on the planet's surface varies periodically. During heating by the rays of a star it becomes sparser. During sunset of a star beyond the horizon - it becomes denser. Physical state of the atmosphere changes more noticeable because of their closer location in relation to the star.

In addition, the entire surface of the planet can be divided into "climate zones". A climate depends on the total length of stay "in the rays of the star" and the average distance of a point on the surface of the planet from the star.

The greater is the angle at which the sun's rays "fall" at any point on the planet's surface, the more "warmed" are the elements at this point and the more rarified is their state of aggregation. Therefore, the closer to the equator, the thinner is the state of aggregation of elements and their compounds. Naturally, in the daytime the aggregate state is sparser, and at night is denser.

And vice versa. The smaller is the angle at which the sun's rays illuminate some point on the surface of the planet, the weaker this area is “warmed up” and the denser the state of aggregation of elements. Therefore, the closer to the poles, the denser is the state of aggregation of elements.