«The Final Appeal to Mankind» by Nicolai Levashov

            The  number  of  space-universes  forming  a  closed-circuit  balanced  system  may  be
            different. therefore, we may more accurately depict equation (9) as follows:




               +
                                                                -
            ∫∫n (i)k m(i)k dkdi + ∫∫n (ij)k m (ij)k dkd(ij) ≡ ∫∫n (j)k m(j)k dkdj           (10)
                                            0
                                     0

            Through zones of non-uniform dimensionality (zero-transitions), it is possible to pass
            from one space-universe to another. When this occurs, inevitably substance from our
            space-universe gets transformed into that of the other space-universe: there is no way
            “our” matter can end up unchanged in the other space-universe.


            The zones through which such a transition can occur are precisely the black holes,
            within which complete disintegration occurs, and also the neutral zero-transitions,
            where balanced matter exchange takes place.

            Neutral  zero-transitions  may  be  permanent  or  temporary,  and  may  occur
            periodically or spontaneously.

            On Earth there are several areas where neutral zero-transitions occur. Ships, aircraft,

            small vessels or individuals entering such regions vanish without a trace. Among such
            areas are the Bermuda triangle, certain regions in the Himalayas and several others. It
            is virtually impossible to ascertain at what point or into which space any substance
            winds  up  after  exposure  to  the  effect  of  zero-transition  –  let  alone  predict  the
            probability  of  its  returning,  which  is  practically  nil.  Therefore,  it  is  impossible  to

            implement purposeful space travel through such channels.

            No less exciting – is the origin and evolution of the stars.

            Newborn stars (novas) can be gigantic – exceeding the dimensions of an entire solar
            system (the Blue giants). The initial density of such stars is not very high (see  F Fi ig g. .
            1 15 57 7).  Over  time,  as  a  result  of  thermonuclear  reactions,  their  atoms  keep  losing
            electrons and finally disintegrate.


            Initially, such stars  lose their single atoms  –  hydrogen, helium, etc.  – so that their
            substance increasingly consists of heavy element atoms. As the star shrinks, it becomes
            increasingly denser and heavier, resulting in a progressively greater and greater impact
            on the spatial dimensionality.

            If early in its evolution a star possesses a macroscopic dimension equal to

            3,00017 < λа < 3,020373236.


            then, upon compression, it causes a secondary space deformation of Δλ < 0. This, in
            turn, results in a macrospace dimension of:

            3,00017 < (λа - Δλ) < 3,020373236



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