«The Final Appeal to Mankind» by Nicolai Levashov

            in the dimension of its microspace.

            The deformation  of space does not only  occur in the region of an atomic nucleus.
            Therefore, although a given nucleus deforms the space around it, the resulting change

            alone is not  enough to  initiate  the synthesis  of substance from  the seven forms  of
            primary matter.

            A space curvature may arise with the potential for merging six forms of matter, but
            for  the  fusion  of  seven  types  of  matter,  a  further  minor  change  in  microcosmic
            curvature is required. The dimension of these areas varies within a range of


            2,9800 < λ < 3,00017

            In order to produce an electron, the following dimension is required:

            3,0001 < λel < 3,00017

            In the latter case, the seventh form of matter also merges with the other six, but the
            fusion is very unstable. Minor changes in the external environment can easily disrupt
            such a combination. That is precisely why an electron manifests both as a particle and

            as a wave (dual characteristics).

            Hence, an electron is continuously undergoing both a synthesis and disintegration of
            its substance – a process that produces electron clouds, manifesting in several different
            forms:  S-cloud,  P-cloud,  D-cloud  and  F-cloud.  Each  differs  from  the  others  in  its
            spatial configuration, which, in turn, affects the properties of the electrons and makes
            possible a variety of spatial combinations.

            As  atoms  combine  into  molecules  or  form  crystal  lattices,  the  electron  clouds  of

            different atoms create a common system that is significantly more stable than before.
            Such systems consist of two electrons, each possessing a different spin. This is due to
            the different types of curvature of their microspace dimension, which deflect space in
            two opposite directions – equivalent to a balance level. The electronic structure of the
            nearby  atoms merge into a shared closed system. The  outer  electron shells are not

            sufficiently filled in to make for a state of balance: an atom possessing an odd number
            of outer-shell electrons lacks stability.

            Whenever atoms join in a shared system, each pair of atoms contributes one “free”
            electron  toward  the  setup  of  a  shared  stable  system.  Conventionally,  an  electron
            revolving clockwise around the nucleus is designated as having a positive spin, while
            a counterclockwise revolution denotes a negative spin (see F Fi ig gs s. .   1 14 46 6, 1 14 46 6a a, 1 14 47 7).















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