«The Final Appeal to Mankind» by Nicolai Levashov

            Since the required molecules in monocellular organisms need to be only one tenth the
            size of RNA and DNA molecules, the problem should be readily solved. However, the

            situation is not that simple. Every molecule changes its microcosm and this change is
            permanent  as  long  as  the  molecule  itself  remains  intact.  But,  for  the  synthesis  of
            organic molecules, the microcosmic dimensions must fluctuate with an amplitude of:

            0 < ∆λ < 0.010101618, and be periodic.

            For this to occur, molecules within monocellular organisms must be able to respond
            to even minimal external environmental stimuli by fluctuations in their microcosmic

            dimensions of 0 < ∆λ < 0.010101618. At the same time environmental radiations must
            be able to penetrate their membranes unimpeded without destroying the monocellular
            organisms.

            The  external  factors  meeting  all  these  demands  are  the  low  thermal  and  optical
            radiations of the sun. Other segments of solar radiation, such as x- and gamma radiation

            are destructive to organic compounds and organisms. What situation, then, can provide
            organic substances and organisms with the softer, lower frequency radiations from the
            sun, while simultaneously filtering out the harsher, higher frequency solar radiations?

            Again,  the  solution  is  provided  by  water.  Sea  water  absorbs  x-rays  and  gamma
            radiation and allows the passage of the sun’s thermal and optical radiations, which
            readily penetrate the membranes of monocellular organisms.


            Therefore, the following conditions are both necessary and sufficient for the cellular
            synthesis of organic substances:

            a) the presence of organic molecules within monocellular organisms, which can readily
            change their structure in response to changes in external factors, leading to fluctuations
            in microcosmic dimensions within a range of:


            0 < ∆λ < 0.010101618...

            b) the presence of external factors, such as low frequency thermal and optical radiations
            from  the  sun,  that  will  cause  the  required  changes  in  molecular  structure  without
            destroying the molecules of monocellular organisms.

            In  the  course  of  evolution  the  exact  molecule  that  meets  the  requirements  was

            developed — chlorophyll.

            While absorbing certain frequencies of the optical (photonic) and thermal radiation of
            the sun, chlorophyll molecules change their structure, creating new, but very unstable
            compounds. These compounds disintegrate as soon as the effect of the thermal and
            optical radiations ceases: this is precisely what causes the fluctuation in microcosmic
            dimensions so necessary for the initiation of the synthetic process within monocellular

            organisms.




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