 |
|
|
|
|
|
|
|
 |
|
||||||
|
|||||||
you are here: > UCA >
12. Life
| 12.13 |
Atomic substitution and performance of polymers
|
|
| In Chapter 7 (Atomics) we discussed a by-product of each and every level of matter having unique perception- that is the existence of differently constructed particles exhibiting similar characteristics- i.e. creators and destructive attractors. | ||
| In the case of Hydrogen, we saw "creator" Hydrogen made from protons and Neutrons and "destructive attractor" Hydrogen made from combinations of protoactives and neutroactives. The result being that at the atomic level, proto-active Hydrogen is substituted throughout the elements listed in the Hydro-Helio matrix. | ||
| Apart from seeing the continuation of a fundamental rule of UCA throughout the universe (unique awareness), we see this results in the breakdown of certain atomic structures and the influence of ergons. | ||
| 12.5.1 | Atomic substitution at the molecular level | |
| Given the general common behavioral traits between Hydrogen (1), Oxygen (6) and Nitrogen (7) and then the commonalities between Carbon 96) and Iron (26), it is possible for other elements showing similar characteristics to be substituted at a Molecular level of perception- e.g. Chlorine (17), Fluorine (9), Bromide (35). | ||
| What we are saying is that an over exposure to these heavier elements in high quantities during a growth phase of certain cell types would naturally lead to molecular deformities as these structures are misinterpreted at a molecular level. | ||
| Just as we sometimes misinterpret people or things for being positive to find out later that they were a negative influence, molecules perceive size and behaviour characteristics on a general "face" value. There simply isn't time or the depth of perception for molecules to perceive all levels of structure of atoms, just as we would never truly converse or relate to other people if we did not operate on some level of assumed "trust" in what we see is what it is. | ||
| 12.5.2 | Molecular substitution and defects at more complex polymer molecular levels | |
| Apart from obvious substitutions between Oxygen and Bromine, Silicon and Aluminum, we see substitution occurring with Nitrogen and Fluorine, Chlorine and Silver. | ||
| This means these defects at a molecular level will be reflected in defects at a complex polymer level (e.g. proteins, polypeptides and cell structures- however not at DNA ( as will be discussed). | ||
| The level of seriousness of defect depends upon the substance that has been substituted and the period of growth. | ||
| At a fast growth level of immune systems and blood systems, the presence of heavier elements substituting Oxygen may result in respiratory or even blood-oxygen defects (e.g. Asthma and Leukemia). These may gradually pass as the body is promoted into a re-growth phase at adolescence. | ||
| 12.5.3 | The importance of understanding chemical substitution for combating disease in the future | |
| As defects in our bodily function result in the eventual failure 9deat) of cellular life, the understanding of origin of defects presents a major area to properly investigate. Combined with a solid understanding of the nature of biologic code (DNA), humans in the future will be able to cure a range of potentially fatal diseases. | ||
|
Copyright © 2010 UCADIA. All rights reserved. |
||