Page 306 - The Final Appeal to Mankind
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«The Final Appeal to Mankind» by Nicolai Levashov
of which comprise a metauniverse in a given zone of inner dimensional fluctuation of
a given matrix space.
The number of potentially possible space universes constituting a metauniverse is
determined by a formula for the number of matter combinations comprising the
substance of the space universes.
∑ ∑ C n = n! / m!(n-m)! (14)
m
n m
where:
2 ≤ m ≤ n.
n – equals maximal amount of primary matters, specifically having the dimension
quantization, coefficient γi, which form space universes within a given zone of inner
dimensional fluctuation of the matrix space. Most often the number of space universes
producing a metauniverse is less than maximal. The further from the center of the
matrix space mergence zone, the greater the difference between the potentially possible
and actual number of space universes giving rise to a metauniverse.
Also, the further from the center, the more “vacant spots” exist.
In essence, then, the vicissitudes of dimensional quantization of a given zone's
dimensional fluctuation are the requisite conditions for the creation of space
universes.
The above requirement is met only when the requisite mass of primary matters for
space universe synthesis winds up in the zone of inner dimensional fluctuation of the
matrix space. Although the mass of matter exploded from the matrix space mergence
zone is huge, it is always a calculable value. Such a mass is sufficient for the formation
of a finite number of space universes.
After the superexplosion, the matrix space mergence zone diminishes, causing a
decrease in the mass of incoming matter. In time, this process achieves a certain level
of equilibrium.
As a result of the superexplosion, a system of metauniverses arises, which we
accordingly designate as a superspace of the first order, resulting from the mergence
of nine forms of matter (see F Fi ig gs s. . 1 17 70 0, 1 17 71 1).
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