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8. Matter- molecules
| 8.4 |
A revisit on the concepts of volume, dimension and perception
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In Chapter 5, we introduced the humble Unita- the smallest particle created out of six points of UCA moving at half infinite rates to create volume. | |
| As you saw by the diagram, Unita are far from solid objects. They are at best, fuzzy etchings in space. Yet we see Unita behaving with one another as if they were solid objects. Moreover, we see at the atomic level, atoms behaving as if they were solid objects, when in fact, their structure is just a handful of Unita in largely empty space. Importantly, we saw that each and every level of matter occupies volume ( i.e. each particle of matter has Mass) in 3-dimensional space. We were able to identify that the density (how many particles in a given space) of certain particles is a vitally important behavioral trait. | ||
| So what does this mean in terms of the volume of space taken up by molecules, their 3-dimensional structure and perception? | ||
| 8.4.1 | The creation laws and larger more complex structures | |
| Atoms obey the laws of creation just as every other level of matter does the same. | ||
| We see from these creation laws that atoms, like every other level of matter wish to form more complex shapes. The problem being that in using laws 6 and 11, the temperatures required to say form Carbon under strong nuclear fusion is hundreds of millions of degrees Kelvin. | ||
| If this was the only way complex structures were able to be created, then the most complex structure in the Universe would be billions of Iron atoms and that's it! Of course, we know that molecules exist, so this is not the case- atoms found a way "around" the restrictions of strong and weak nuclear fusion to create even more complex shapes via chemical fusion ( as we will discuss in a moment). | ||
| 8.4.2 | Rule 6- Geometry and Rule 11 Conservation of effort | |
| The physical result of atoms forming relationships is that they occupy a larger volume area. When we combine law 1 with 6 and 11, we see that the objective for atoms in forming more complex relationships is to occupy the largest amount of space, as efficiently as possible in the most stable configuration. | ||
| Amazingly, these insights are often missed when considering molecular structures. For it is not only a question of "visualizing" molecules as having 3 dimensional shapes, it is also recognizing that those shapes are always created to optimize volume, specialization and stability. It is relatively easy to write down 6C6OH12 (6 Carbon, 6 Oxygen 12 Hydrogen), but what does it physically look like in 3 dimensions? | ||
| Almost our entire knowledge base of molecular science, with the exception of a few diagrams, shows a distinct lack of understanding of the interaction of the laws of creation. For we have hundreds of diagrams of complex molecules that show no synergetic 3-dimensional structure whatsoever. In fact, the majority of our diagrams remain largely 2 dimensional! | ||
| This is in direct contrast to the verified investigations into biological science in the past fifty years using powerful electron microscopes that has shown in fact all complex structures show similarities of 3 dimensional synergy. | ||
| The famous Fibonacci Number set ( 0,1,1, 2, 3, 5, 8, 13, 21, etc) has been identified as a common re-occurring pattern in cellular life forms. It has been verified that all life can be identified by patterns of relationships in 3-dimensional structures that are the same. | ||
| In other words, molecules do have defined three dimensional structures and they appear to be structures that optimize volume, pattern and a degree of stability. | ||
| 8.4.3 | Molecular perception | |
| Human perception is based on molecular perception, not atomic perception. While molecules are made up of atoms and in turn, sub atomic particles etc, the behaviour of living organisms is at the unique molecular level of perception. Whether or not a molecule occupies a great amount of volume in a superior structure or not, it is the perception of nearby molecules that counts. In other words, molecules create their own level of perception, just as every other level of matter creates its unique level of perception. | ||
| Most importantly, the rules of molecular interactions is based on molecular perception, not atomic perception or the "reality" that molecules are mostly empty space. This is where so many great minds have become entangled in convoluted arguments. For if we wish to understand and to alter molecular structures, it is by the rules of the perceived world of molecules, not atoms that we must understand. Regardless of how rationale our formulas that show molecules are made up of atoms and that they should not do what they do, molecules won't listen. They are living, self-aware structures that have their own perception of the world around them. | ||
| We will see this as a crucial understanding to the inherent behaviour of molecular structures and why they do what they do. | ||
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