When the big-bang occurred, it created initially a single type of radiation which I call "y-Gamma" rays (depicted in cell-2). These rays emitted in every direction all at once. There were many of them. y-Gamma rays have a particularly interesting property, they emit in their trail which I call "electrodes" (depicted in cell-3) which is a primitive particle that eventually forms matter as you and I know it. What happened was that initially, the y-Gamma rays created a lot of electrodes near one another at the center of the big-bang but as they progressed outwards apart, they still produced electrodes. Electrodes became subject to the law of gravity, causing a central (pivotal, primary, principle) electrode to glob together with other electrodes near that center. Eventually a threshold (imagine a sphere) would form where everything within it would collapse and become part of a super-star of electrodes and anything that escaped it (or was outside that sphere) would clump together to form everything else.
Notes and Residual Thoughts:
- The sphere of course grows, initially very quickly but eventually more slowly.
- The super-star creates a high-mass super-dense center of the universe that has most of the matter in it
- Gravity would then yield that our universe is cone-shaped and not spherical. It can give the illusion of being circular or spherical if you live on the edge of the cone. :)
- y-Gammas kept going, leaving more electrodes as they progressed outwards away from the center. They still keep going today; however even they can't escape gravity's clutches. Thus the universe expands in the form of a cone that keeps becoming more narrow as time goes on.
- Electodes are an important word to describe what y-Gamma rays emit. Not electrons or electodes. Suggest trying to figure out why that word is important
- Also have no idea why y-Gamma is named that way, must also be important.
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