Page 80 - Spirit and Mind. Vol 1
P. 80
Nicolai Levashov. Spirit and mind. Vol.1
Owing to the continuous process of internal cellular disintegration, the
dimensionality gradient between the cell and the surrounding plasma remains intact.
It is noteworthy that the value of that gradient fluctuates: the cell's dimensionality
level increases as the cell becomes saturated by organic and inorganic molecules
from the plasma. When it strikes a balance with the plasma's dimensionality level, the
influx of new molecules into the cell drops off — the cell is "full" - maximally
saturated with organic molecules.
As the self-dimensionality level changes with the cell's becoming greater than
the plasma's, a reversal occurs, with the molecules moving out of the cell back to
the plasma from which they came. Since the dimensionality gradient is minimal,
only the molecules possessing a similar dimensionality level can move. It is precisely
this type of molecule, synthesized from disintegration by-products, that becomes
toxic slag. The latter consists of molecules whose cellular dimensionality level is
minimal, and therefore the DNA and RNA molecules that arise, having standing
waves of dimensionality gradient, do not substantially affect their stability.
This process gives rise to toxins in the plasma, which are transported through
plasmatic lymph vessels into the main bloodstream. The slag-saturated blood then
travels through the veins into the heart, which pumps it into the kidneys where it is
cleared of the slag.
Periodic dimensionality fluctuations between cells and plasma occur when the
speed of de-composition inside the cell of an organic molecule is less than the
speed of inflow into the cell. In other words, all functions of the physical cells in
particular, and of the organism as a whole, depend upon the speed of the
decomposition process. It appears that adrenaline plays a major role as accelerator
of intracellular decomposition, without which an organism is unable to function.
During the decomposition process, the concentration of organic molecules
decreases, triggering a drop in the cell's self-dimensionality level. The direction of
molecular flow changes. The cell becomes "hungry", and organic molecules begin
moving from the plasma to back inside the cell. This process does not cease until the
death of every organism -from one-celled creatures to complex multicellular life
forms.
And now, let us return to our discussion of the emotions.
What, then, is the defensive role our emotions play? How do they help us
survive in a crisis situation? It is important to note that emotions, as defense
mechanisms for survival, unfolded in the process of billions of years of evolution —
especially with regard to their major function — pre-serving the individual, the
bearer of genetic information so crucial for the evolution and development of life.
This is a perfectly understandable way for a given species to ensure its posterity
and survival throughout its evolution — the prime requisite of which is the presence
of members capable of producing offspring.
For this reason, only those organisms that developed the capacity for mustering
their potential and adapting to stress in moments of peril were able to survive the life
struggle. Let us recall that each cell of every living organism releases primary matters
during decomposition. Furthermore, these primary matters circulate between every
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