«The Final Appeal to Mankind» by Nicolai Levashov

            synthesizing  substance  in  accordance  with  a  corresponding  change  in  space
            dimension of Δλ for each of its types.

            The synthesis of these forms of matter leads in turn to the creation of a system of spaces

            – thanks to the fact that the coefficient Δλ can assume a variety of values. However, if
            a value deviates by even an insignificant amount from the requisite figure, our type of
            primary matter would be unable to merge and would therefore disintegrate.

            With a different value of Δλ, conditions arise for the fusion of another type of primary
            matter – different from ours – leading to the creation of a qualitatively distinct system
            of spaces: A different matrix space is thus created.


            As a result, we have a whole system of matrix spaces that differ from one another with
            respect to their space dimension's quantization coefficient and according to the types
            of their constituent primary matters. This is reflected in the qualitative differences of
            the substances stemming from the mergence of various types of matter, as well as in
            their quantitative differences – that is, in the varying amounts that constitute each of
            these types.


            Every matrix space is non-uniform in dimension. Such fluctuations in dimensionality
            lead  to  merging  with  matrix  spaces  of  similar  dimensionality  in  the  same  regions.
            Zones of matter having a dimension coefficient γ of flow from their own matrix space
            over to another which is just in the process of formation. Furthermore, in the case of
            stars and black holes, if their creation is determined only by the quantity of primary
            matters which comprise the space-universes in the mergence zone (see Ch. 10) and by

            the fact that all these primary matters are of one type (i.e., quantizable by a dimension
            coefficient γ = 0,020203236...), the following occurs: During the merging of the matrix
            spaces, zones of primary matter currents are created, possessing different coefficients
            γi for each of the different types of matter, which, therefore cannot be compatible
            with each other under any circumstances. What happens, then, in these zones of

            matrix space mergence?

            What transpires, actually, is that within such zones, both the initial and subsequent
            types of matter disintegrate, releasing “free” primary matters from each. So then,
            we may wonder – what happens next?

            Actually, there are three conditions influencing the processes unfolding in these zones:

            1) The first is the amount of primary matters which comprise each matrix space in the

            mergence zone. Most often, each matrix space has a different amount. This, in turn,
            orchestrates a different pattern of primary matter currents in the overall composite –
            giving rise to a back-and-forth flow from one matrix space to another.

            Two counter-currents are thus generated, creating powerful vortical flows of the two
            types of matter in their zone of intersection. Once this occurs, the stronger current will

            entrain the weaker one, thereby generating a powerful vortical geyser of the two types


                  Back to content                          298