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As our sun continuously heats up and cools down, heats up and cools down, this refinement of gases
slowly builds a shell around the core of the newly
forming planet, until eventually the core grows to the size of an average planet,
maybe significantly bigger. We might even say the newly formed planet is several times the size of the earth, only the surface of it will not yet contain
solid landmass, but more a quagmire of living vegetation.
The skies above will be made up of violent weather patterns and the climatical temperatures reach greenhouse like conditions. In fact the surface temperature could well be in the high 70s or 80s Celsius, with winds blasting at 200 or 300 hundred miles an hour.
All over the surface volcanic activity would be rife, and the early process of evolution accelerated to thousands of times it normal speed, which in itself would throw chronology into disarray. To visualise this happening, think of a stove in your kitchen with four pans on it, each pan contains the same elementary amount of water and cabbage.
We begin to heat each pan at a different temperature and allow the water to slowly burn off. No doubt you've worked out that the pan with the most heat underneath it dries out quicker than the ones with less heat. Therefore, on a cosmological basis we can make an assumption, that although planets farthest from the sun might be considered to gain less influence, the star's power might cause them to develop less quickly.
However, nothing could be farther from the truth. For like the pans on the stove, if we placed a lid on the pan with less heat, it would naturally boil quicker than the one with more heat. The paradox being, atmospheric gases would create heat retention. This led me to believe, planets with higher surface temperature spin at a greater velocity on their axis, in conjunction to those with a lower surface temperature, and thus they create a higher volume of mass.
Yet all planets, regardless of their distance from the star, must fall with an equal ration once the star loses its productive power. But equally as the planet falls, so must the particle gases surrounding the planet. And so what we see is a steady application of planetary movement where the planet is taking positive, progressional steps towards the star, as the star reclaims the material it violently distributed among the early solar system during its initial explosive period at the birth of the solar system.
If we understand then, that the productive cycle of planets is anything other than by accident, that there is progressional movement of planets back to the place of their birth, based on the fluctuation of stars period temperature, we should also understand that every star in the heavens will have a planetary solar system with advanced and embryonic life around it. The rewrite of Einsteinian special relativity will explain why we do not currently detect those said planets via Doppler registration.
If this is the case, that our star, the sun, and every other star in the universe has elementary life around it. we must consider the fact our planet Earth is not
the first planet in the sequence of events. Other planets would have gone before us. And it's this which brings me to the possibility of a Martian civilisation. Not a primordial Martian soup with basic life in the very kindling of development, but a highly intelligent species possibly hundreds of thousands of years more advanced than ourselves.
Continued
Essay Paper: Mars 2.
Essay Paper: Mars 4.
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Essay Paper: Mars 7.
Essay Paper: Mars 8.
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Essay Paper: Mars 11.
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Essay Paper: Mars 13.
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