A black hole occurs when enough energy accumulates in one spot, the compression it creates places so much pressure on the energy, that the energy rips open the fabric of space. The energy exists in the same nothing that exist outside of the boundaries of the universe, surrounded by the compression of the displaced space. This rip can allow for a great deal, even all, of the energy in the universe to exist in a very small point. At the time of the big bang; all of the energy in the universe existed in a very small point, ripped open in the fabric of space, surrounded by the space displaced from the energy. Though the point is small, the space being displaced from the energy remains the same. The bound nature of the universe, of space, causes the boundaries of the universe to shrink, as each point of space is bound and the majority of the points of space were highly compressed around and by the single black hole. When the force of the energy inside the black hole became greater than the force of the compression of space, the black hole exploded. The big bang leaked. Due to the high compression of space the first wavelengths to form were the longest wavelengths possible with low energy in terms of the space/energy ratio. As these wavelengths escaped space began to flow into the area that was formerly the black hole. This served to decrease the compression of space and decrease the space/energy ratio. With the decrease in the compression of space shorter, more energetic wavelengths could form. This exchange continued until equilibrium of the exchange between space and energy was reached. The pattern of wavelength emission would look like a black body emission spectrum with the peak being the equilibrium point. From the equilibrium point the wavelengths continued to become smaller while containing increasingly less energy until all the energy had been expelled. The small wavelengths with less energy underwent particle formation.
The Big Bang
Black: black hole
Rainbow long: long wavelengths
Short rainbow: shorter, more energetic wavelengths
Blue: compression
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