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8.7
What structures do atoms create under strong chemical fusion?
 
  Given what have now discussed, we now know that only BASES and BONDS form more complex structures we call molecules according to their classification and strength under the Hydro Helio Atomic Matrix. We also know that the most common atomic elements in the Universe are also the simplest.  
  Principally there are six classifications of geometric structures formed under strong chemical fusion:  
 
Matrices (geometric bonding of same atoms under pressure)
Pairs (pair, either core or hydrogen bonding)
Tri (groups of three atoms, either core or hydrogen bonding)
Quads (groups of four atoms, either core or hydrogen bonding)
Pentas (groups of five atoms, either core of hydrogen bonding)
Hexas (groups of six atoms, either core of hydrogen bonding)
 
8.7.1 Pairs  
  The simplest molecular structure in the Universe are pairs. Thanks to the Hydro-Helio Atomic Matrix, we can quickly see that :  
 
BOND atoms are the most active "seekers" of relationships, not only to stabilize themselves, but to enact the creation laws;
BASES have strong latent potential, therefore enabling them to use some of their electron attraction potential and share electrons with Bonds.
BASES and BONDS will either form pairs with others of their kind, or with an opposite to form a more stable structure (e.g. a Base with a Bond). We call these two types of pairing: Hydro Bonding, or Core Bonding.
 
  Hydro Bonding  
  The most active Bond seeking Hydro bonding (funnily enough) is Hydrogen itself. Hydrogen will seek bonding relationships with either large Bonds or Bases to form stable relationships (most often triplet structures where two Hydrogen bonding sites are available).  
  Core Bonding  
  The simplest and most abundant paired molecules for core bonding are the Carbon-based atoms of Carbon, Nitrogen and Oxygen. All three elements have the same core structure and at the same time are the most abundant, apart from Hydrogen, Helium, Beryllium etc.  
   
8.7.2 Tri shapes  
  Tri shapes are when three atoms come together to form a triad structure. Again, the two types of simple triad structures are either Hydrogen Bonding or Core Bonding.  
  Again, the most common tri molecules are from the Hydrogen, Carbon, Nitrogen and Oxygen family, the most stable Tri's being Carbon with itself, CO2, NH2, H2O, NCO, NO2  
   
8.7.3 Quads  
  Quads are when four atoms come together to form bonds, either via hydrogen or core. Quads are essential building blocks for more complex molecules ( to be discussed later in this chapter)  
8.7.4 Pentas  
  Pentas are structures of five atoms configured under core or hydrogen bonds, either in a cross, or a five-side geometric shape. The stability of the Penta five sided shape of carbon atoms is a superior geometric platform, seen as the base for many key molecules to life ( e.g. DNA, connection between fats and as essential components to Amino Acids ( which will be discussed further into this chapter).  
8.7.5 Hexas  
  Hexas are the most complex shapes that are formed under Strong Chemical Fusion and come in cross shapes and six-sided close packed rings (such as Benzene). Hexas are fundamental switches and platforms for a host of vital molecules, including DNA and several Amino Acids.  
8.7.6 Matrices- Geometrically stable closed packed structures- (Crystals)  
  Unlike Bonds, Base atomic structures can form a third type of structure based on geometrically stable closed pack relationships. Close packed means, that the bonds are at a maximum core to core to core relationship.  
  Core to core to core bonds between Bases can extend to quite large geometric structures, usually in either one or two geometric shapes: Cubic crystals (e.g. perfect gemstones); or Tetra-Hexagonal (e.g. metals).  
  Almost all metal atoms form into close packed structures, as do a great many combinations of paired atoms.  
     
     
 
 

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