Page 14 - Spirit and Mind. Vol 1
P. 14
Nicolai Levashov. Spirit and mind. Vol.1
But this is possible only if all the blocks (i.e., all the primary matters) are of the
same size. If we mix blocks of varying size and try to make a "picture universe" our
efforts will be in vain, even if we have enough blocks to make up several pictures.
This is because we must first sort out the blocks by size and then, using all of the
same size, try to make a "picture."
Consecutive change in dimensionality by one and the same number value, ΔL,
is really quantization of the matrix space γi. It is expressed by the quantization index,
γi, which is the permissible value of the number of "blocks" (i.e., primary matters)
needed to make a new "picture."
Thus, just as you can make different "pictures" from different amounts of the
same-size blocks, so in the matrix space, space universes are composed of different
amounts of identical primary matter forms. Such space universes constitute a unitary
system, like a layered pie, with each layer having a distinct quality and possessing
one block (i.e., one primary matter) more or less than its neighbor. All these layers
are in constant motion and constantly interacting.
Consecutive change in dimensionality by one and the same number value, ΔL,
is really quantization of the matrix space γi. It is expressed by the quantization index,
γi, which is the permissible value of the number of "blocks" (i.e., primary matters)
needed to make a new "picture."
Thus, just as you can make different "pictures" from different amounts of the
same-size blocks, so in the matrix space, space universes are composed of different
amounts of identical primary matter forms. Such space universes constitute a unitary
system, like a layered pie, with each layer having a distinct quality and possessing
one block (i.e., one primary matter) more or less than its neighbor. All these layers
are in constant motion and constantly interacting.
In the areas of their contact, such interactions between adjacent space universes
give rise either to stars or black holes (see Fig. 2).
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