Applying the Fundamental Unit Theory to The Big Bang
Let’s envision approximately 10^100 fundamental units of matter programmed to occupy coordinates in a massive sphere with predetermined directions.
Imagine someone activating this vast program. Once initiated, the fundamental units begin moving through the coordinate system, similar to our current conception of The Big Bang. As these units expand outwards, they start forming patterns with each other.
Over numerous iterations, stable patterns arise. Layering Theory offers a simplified way to visualize the process that follows. It defines the fundamental unit of reality as the primary layer, and each stable pattern as a new layer where all units of reality within it act together as a single, larger unit.
As The Big Bang unfolds, successive stable patterns and new layers form, combining different-sized layers in an ongoing process.
Eventually, the patterns merge to create quarks, which then form atoms, and so forth. To grasp how many layers are needed for atoms to exist, consider that an atom comprises around 10^30 fundamental units of reality, organized into countless layers.
With continued iterations, the cell layer eventually emerged in our reality, and numerous layers on Earth have built upon this unique layer, up to and including the human layer.