SPACITY EXPLAINS EARLY UNIVERSE

This is when the future of the universe was decided. The seeds of the Universe as we see now, were sown during this stage. Thanks to nature of the processes it yielded a universe that is Gaseous, Fluffy, Spongy and light.

Why did the plasma after conversion to gas remained in fluffy condition? Why not a continuous gaseous mass uniformly spread across the universe? Who disrupted this chance? SPACE. Space was thatdisruptor! Since the Energy inflation happened against space, the space acting like a 3D sieve. If not for this feature, we would have had a uniform universe. No Galaxies would be dotting the night sky. Just stars everywhere.  Or at best, maybe just one big galaxy equivalent to the universe. 

Immediately after the Big Bang, it is but natural that the infinite energy gets spent as time progresses. When space acts on Plasma to convert it into matter it has three options. Solid, Liquid and gas. But what we see is that much of it was only in Gaseous form. Why not a Universe filled with liquid Hydrogen or a solid Hydrogen?

At the temperature reigning after the big bang it is almost impossible for any matter to be in any form other than gas. Hydrogen needs to be cooled to -257 Deg c to achieve a liquid form. Hydrogen is found in gaseous form at room temperature so early universe must have been Gaseous. With these conditions Hydrogen could never attain a solid state.

Lightness is in the context of presence of lighter molecules during the early stages. To begin with only Hydrogen, Helium and small quantities of lithium were present after the big bang. When pure energy was escaping space and space was trying to contain energy, it could only muster enough energy to create light unit of mass. Electrons, Neutrons, Protons and Hydrogen Molecule. It could not muster up higher metals since by then it had lost the conducive conditions of high pressure and temperature. So, metals had to wait till star formation where H2 Molecules could be driven up to higher levels of periodic table.