Page 28 - The Final Appeal to Mankind
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«The Final Appeal to Mankind» by Nicolai Levashov
Chapter 1. The formation of planet Earth. The synthesis of non-
living matter
What is matter? How was it formed? How many kinds of matter are there and
how do they interact?
These and many other questions have confounded man’s mind throughout his history.
In order to find an answer to these questions, the human race turned its sight toward
the vastness of space and to the microcosm. But the further man’s understanding
advanced, the more he found himself mired in questions and problems for which he
had no answers.
In order to better understand nature, man must drastically change the deepest
foundations of his knowledge. It is necessary to KNOW and to UNDERSTAND the
laws of formation of the universe and its development. It is necessary to comprehend
the laws of life of the planets, stars, and galaxies of our universe. They are much
different from what contemporary science believes.
First, I would like to point out that everything considered by contemporary man as the
universe is but a small fragment of the Great Cosmos, like a single grain of sand on
the beach of a boundless ocean. And that grain of sand is our home, the cradle of
mankind. In order to progress further, man has to comprehend the world into which
he was born.
There are an infinite number of types of primary matter in the Great Cosmos. They
interact more or less among themselves or do not interact at all. If two kinds of primary
matter do not interact, then nothing changes in them: they may even interpenetrate
without influencing each other in any way and with nothing new appearing during
the process. It is as though they do not exist for one another.
Let us define the degree of influence of one form of primary matter on another as the
“coefficient of interaction.” We may then say that where there is no interaction
between different kinds of primary matter the coefficient of interaction equals zero.
It means that “bricks” of two different kinds of primary matter cannot fit together in
the same structure, that they have no common characteristics and qualities. The
coefficient of interaction is different even for two kinds of primary matter in separate
points in space, because space itself is not uniform in structure.
Only when interaction takes place within a defined volume of space is it possible to
talk about the mutual interactions of primary matters. In principle, there are volumes
of space where there is maximal interaction between primary matters and others where
it is impossible. Also there are certain regions of space where primary matters interact
only partially by means of one or another shared quality. (F Fi ig g. . 6 6)
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