Page 217 - Spirit and Mind. Vol 1
P. 217
Nicolai Levashov. Spirit and mind. Vol.1
wave of dimensionality gradients.
Such spatial architecture creates a trap for all other molecules, both organic and
inorganic. As a result of the molecules' Brownian movement inside a cell, they wind
up close to the DNA/RNA molecules.
The radial dimensionality gradient within the spirals forces the molecules caught
inside the spirals' inner volume to move lengthwise along the DNA/RNA's so-called
optical axis. As they move through the inner spirals, the "captive" molecules fall
under the influence of the varying dimensionality gradients.
1. Anisotropic (nonuniform) inner space of a DNA/RNA inner spiral.
2. Dimensionality gradient of the microspace along the Y axis.
3. Dimensionality gradient of the microspace along the Z axis.
4. Standing wave of microspace dimensionality gradient within the inner
volume of the DNA/RNA spirals along the X axis, contiguous with the axis of these
molecules.
5. "Captured" external molecule, D.
Fig. 23 — Molecules caught within the
DNA/RNA's inner spiral volume fall under
the influence of the radial dimensionality
gradients and begin to move along the
spiral's axis. As they move, they become
subject to the effect of the microspace
dimensionality gradient created by the
standing wave.
For most of the captive molecules this
gradient is overpowering and triggers their
disintegration into their constituent
primary matters.
1. Anisotropic inner volume of a
DNA/RNA spiral.
2. Microspace dimensionality gradient
along the Y axis.
3. Microspace dimensionality gradient
along the Z axis.
4. Standing wave of microspace
dimensionality gradients inside the DNA/RNA spiral tunnels along the X axis,
contiguous with the axis of these molecules.
5. "Captured" external molecule, D.
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