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What we would have at that point, is an infinetly hot early vortex, who's temperature is totally out of control.
We might like to term this point as a fused, black hole. Only as this hot period in our star's history cannot be sustained with any credible duration, we have to explore what might happen under a logical process of solar activity. We should assume, that although this region is infinitely hot, at this juncture, the surrounding area will not be. In fact, the surrounding area will be infinitely cold.
This means cold space will automatically funnel its way down in to the hot, twisting vortex and enable its central cortex to actually rise and offer us, from here on earth the ability to believe we look at a consolidated burning ball of gas. I think the perihelion motion of Mercury will prove the theory correct, as it orbits the star itself. Whereas perviously the glitch Mercury has produced has been attributed to general relativity, with some slight perversion in my opinion, I think science will find it fits a vortexing entity with a much stronger application, although, for the sake of stability here on earth they might manipulate the point just to retain order, and prevent an uninformed public panicking.
But if cold space does produce a dome of hot gas, we should naturally assume the function of this process cannot be equivalent in all places, for if it was, then a solid gas ball would take precedent in any theoretical observation. But it is widely known, that surface temperature of our star is greatly misleading.
This suggests something rather strange is happening with the very atomic reaction inside the star.
If, as we say, our sun becomes a hot burning vortex, then a parity must always be struck between it, and the surrounding levels of mass in the solar system. But if we imagine our early star is attracting cold space within its core, then we must also assume that with a slight, fluctuating temperature, parity cannot be retained; yet we have already decided these two, the star and its contributory of matter are inextricably linked, so parity must be retained. The only feasible way this might happen, is if any piece of matter orbiting within
our solar system quickly relocates itself in a different orbit.
By placing solid matter in a more advantageous location, parity once again can be struck.
What we should witness from this hypothesis about Mars, is solid matter will not therefore retain its original orbit, so matter that may have been ejected from an early explosion, deposited on the peripheral wall of our solar system, will take systematic steps towards a finite conclusion. But even as this methodical process continues, a secondary process will be under way. If we assume our star heats up and then cools down, we must also assume gas around any newly
forming planet will act in the same manner.
This enables us to suggest a star, and its surrounding planets are slowly baked in a methodical way, which
allows us to conclude planets do not - form by chance, but by an evolutionary process themselves, in a way that produces gas dilution from particle refinement.
Continued
Essay Paper: Mars 2.
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