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Random Brownian Motion
In order for the Motherverse not to collapse on itself, the infinitely many go-dots remain apart or discrete. Each is so tiny that we have no way of measuring it. In effect, the go-dot is the irreducible unit of dark matter, whose only measurable effect is gravitation in large clumps.
Since the go-dots do not form a single mass, and they both are tiny and have a tiny unitary gravitational strength (not wave, not matter), they must move about to come into contact with each other for what necessarily follows next.
All those endless tiny godots aren't standing still. Like tiny specks or molecules in a pond, they are in constant motion very similar to random Brownian motion in fluids theory. The godot is the fundamental 'thing,' platelet, of existence. When we make a universe, soon, we'll see how it works. A key task will be to find how the go-dot fits into our universe. Since space is considered the same inside and outside the event of a typical universe, go-dots exist both inside and outside universes. As we'll see, their behavior is differentiated within the stages of making and unmaking a typical universe.
NOW AVAILABLE: The book (article) by John T. Cullen is now available for purchase at Amazon.com and other sites or stores. Visit:
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Browse or Buy at Amazon
The book linked at left is an e-book edition to browse; or buy & download from Amazon for your Kindle reader.
The middle link is for the corresponding print edition. This short book is a standard 6x9" trim size. More info at Amazon.com.
Most print editions are also available at Barnes & Noble online; or call/visit your local bookstore to order.
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