Page 176 - Russian History Viewed through Distorted Mirrors, Vol. 1
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Nicolai Levashov. Russian History Viewed through Distorted Mirrors. Vol. 1
in the areas of space where the necessary conditions for this to occur prevailed 130 .
As proved by “scientists,” physically solid matter makes up only 10% of the
matter of the Universe, and the other 90% is so-called “dark matter”. However, they
do not specify what this “dark matter”, which can not be registered by any known
modern scientific tool, is; we will forgive them this “insignificant misunderstanding”
and move on to business. The unspecified 90% is made up of free primary matters,
which fill the space of our Universe, being in permanent motion almost without in-
fluence on each other. In the physically solid matter of the Universe they are distrib-
uted in exact proportion to each other. However, while moving freely in the rest of
space, a hard proportional correlation between them is not observed. Although all
seven primary matters are present at any point in the Universe, the proportional corre-
lation between them changes within very wide limits.
In other words, free primary matters are distributed in the Universe extremely
non-uniformly: the Universe is also anisotropic in the distribution of primary
matters. As a result, the amount of free primary matters is different in different areas
of space in our Universe. It is of fundamental importance, what kind of free primary
matter(s) prevails in a given area of space. An excessive presence of a particular free
primary matter in an area of space can strongly influence the life of stars, tectonic and
other types of planetary activity, and the evolutional development of living creatures.
Seven primary matters form our Universe. Let us denote them by letters — A,
B, C, D, E, F, G. A great number of factors depend on what kind of free primary
matter(s) prevails excessively in a given area of space, including peoples’ behaviour
and the manifestation of certain emotions and qualities. Each primary matter has its
inherent specific properties and qualities. That is why, when the anisotropy changes
from one area of space to another (the properties and qualities of this space change),
free primary matters react to it differently. When the properties and qualities of a
certain area of space change, the permeability of this area for a particular free primary
matter also changes: As a result, this primary matter is held within this area of space.
Over the course of time an accumulation of this primary matter occurs, which
causes a change in the correlation of free primary matters in a given area of space.
Thus, an excess of a particular free primary matter appears in a certain area of space
in the Universe. Because other free primary matters react to the space anisotropy of
the Universe too, they also are held in the area of this spatial anisotropy, but to a dif-
ferent degree. The reaction of different free primary matters to one and the same ani-
sotropy is different. Therefore, the amounts of free primary matters that are held-up
in the same area of heterogeneity also will be different. As a result of all this, the
proportional correlation of primary matters changes in every area of heterogeneity of
the Universe.
Thus, one primary matter will prevail over the rest of the matters in a given area
of heterogeneity and this predominance will influence different free primary matters
130 See N. Levashov, The Final Appeal to Mankind, chapters 1, 10–12., N. Levashov, Anisotropic Universe,
chapters 2–3.
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