«The Final Appeal to Mankind» by Nicolai Levashov

            in  the  living...  However,  to  encompass  the  whole  picture,  we  must  include  all  the
            processes unfolding in non-living nature as well...

                  Chapter 10. The unity of microcosmic and macrocosmic laws in
                  the universe

            Our solar system arose as a consequence of the space curvature created by the birth of
            our star – the sun.

            During the birth of a star the curvature and dimension of its surrounding space undergo
            distortion  – change. This process, in turn, sets up  the necessary conditions for the
            synthesis of matter within the region of curvature. The condensation of the substance

            gives rise to the creation of planets in the areas of altered dimension.

            Our  planet  Earth  was  created  by  the  progressive  synthesis  of  seven  forms  of
            matter (see Ch. 1). Six material spheres were formed as a result of that synthesis.
            These spheres were qualitatively related to each other by virtue of their possessing
            greater or lesser amounts of elements in common (see F Fi ig gs s. .   1 11 1, 1 12 2, 1 12 2a a).

            The physically dense sphere, popularly known as planet Earth, consists of substances

            we differentiate into four aggregate states: solid, liquid, gaseous, and plasma. Plasma
            is a critical state of physically solid substance in that, although stable over time, it can
            undergo  loss  of  stability  and  destruction.  The  nuclei  of  the  plasma  ions  start
            disintegrating into their component types of matter: As the atom disintegrates – from
            whatever the cause – it loses electrons, thereby triggering a change in its microcosmic
            dimension.


            When  the  above  change  equals  Δλ′1  (Δλ′1  ≈  0,020203236...)  the  nucleus  becomes
            unstable  and  disintegrates.  However,  before  delving  further  into  micro-  and
            macrospace, let us examine the nature of an atom and see how various atoms impact
            their microcosm.

            A hydrogen atom is the simplest in structure and affects its microcosm minimally (see

            F Fi ig g. .   1 13 3) Transuranium elements have the greatest impact on their microcosmic
            dimension.

            The change caused by the transuranium nuclei is about equal to Δλ′1 ≈ -0,020203236...
            In general, quite minimal changes in the external environment are sufficient to trigger
            the disintegration of these atoms into simpler, more stable elements.

            How, then, do the hydrogen and transuranium elements differ in their impact on their
            respective microcosmic dimensions?


            The nucleus of a hydrogen atom (atomic weight of 1) effects the smallest change in the
            curvature and dimension of its microspace, which, in turn, gives rise to a secondary
            decrease in its microcosmic dimension by a value of

            Δλ′H ≈ -0,00008597... (see F Fi ig g. .   1 14 44 4).



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