Nicolai Levashov. Spirit and mind. Vol.1

            stability.

                  The boundaries of these ranges delineate the division between the atmosphere,
            oceans and solid surface of a planet. The boundaries of stability of a planet's crystal
            structure repeats the con-tours of the nonuniform zone; therefore the surface of the
            firm crust has hollows and ledges.

                  The  hollows are subsequently filled in with water  and form  oceans,  seas and
            lakes. Water is really liquid crystal; since it possesses a minimal self-dimensionality
            level, it is stable in the highest range levels and, by the same token, is permitted to
            accumulate in the hollows of the crust.

            The  atmosphere,  blending  gradually  into  the  ionosphere,  which  is  plasma  (i.e.,  a

            transitional state between physical and gaseous matter), occupies the upper limit of
            the dimensionality range of physically solid matter.

                  After the synthesis of physically solid matter, the atoms acquire some stability to
            external changes in macrocosmic dimensionality. Therefore, only when the amplitude
            of the macrocosm's external dimensionality gradient becomes equal to one-half of the
            dimensionality  range  of  the  physical  sphere,  do  the  atoms  become  unstable  and
            disintegrate.

                  1. Dimensionality level of the atmosphere.
                  2. Dimensionality level of the oceans.

                  3. Dimensionality level of the Earth's crust.
                  4. Dimensionality level of magma.


                                                            Fig. 12 — Every atom has a specific self-
                                                            dimensionality level; if this level coincides
                                                            with its macrospace's self-dimensionality, it
                                                            maintains  a  stable  condition.  Otherwise  it
                                                            destabilizes and dis-integrates. If atoms of
                                                            two  different  elements,  A1  and  A2,  have
                                                            self-dimensionality  levels  differing  from

                                                            each  other  by  a  value  of  L,  they  cannot,
                                                            under  usual  conditions,  make  up  one
                                                            system.

                                                                 Fig. 13 — The opportunity for atoms
                                                            of  different  self-dimensionality  levels  to
                                                            form a molecule occurs when one of them

                                                            absorbs or radiates electromagnetic waves,
                                                            the     wavelengths        of     which      are
                                                            commensurate  with  the  distance  between
                                                            the atoms.
                                                                 The necessary conditions are fulfilled
                                                            by  waves  ranging  from  infrared  to
            ultraviolet. When one of the atoms absorbs a wave, its level of self-dimensionality is



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