Origin of the Exoplanets with Reverse Orbitting and Spinning
The article of Johanna Miller, published in the journal of May of Physics Today [1], reported the observations of the exoplanet system K2-290 done by Simon Albrecht of Aarhus University and his PhD student Maria Hjorth. The exoplanetary system consisted of primary star orbited by Jupiter-like planet with 11 times the diameter of Earth with a period of orbiting 48 days and a sub-Neptune-like planet with diameter 3 times the diameter of the Earth and with a period of orbiting 9 days. The system also included red-dwarf star in binary configuration with the primary star. Their observations found that both planets orbit the primary star in direction opposite to the spinning of the star and spin in direction opposite to the spinning of the star. Explanation of the observed facts was actually not offered. Here is my explanation. Observation on our solar system showed that all 8 planets orbit the Sun in the direction of spinning of the Sun and their orbits are only a few degrees out of the Sun’s equatorial plane. Since during solar activity the equatorial area of the Sun is throwing spinning plasma balls from its anti-vortices, which are engulfed back by nearby vortices, I concluded that a strong gravitation from a passing-by Black Hall must have pulled larger spinning plasma balls from the active Sun, but was too distant to engulf them and left behind these large plasma balls cooled down with time and turned into planets [2]. This explains why the larger planets are at the periphery of the solar system and the smaller planets inward.
