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7.14
The weak protonic family
 
  Contrary to what we may believe, most of the particle structures we find on the surface of the Earth are weakly configured protonic/neutronic family groups. That particles can form at substantially lower temperatures with similar characteristics to their strongly bonded counterparts is fundamental to the ability to create atmospheres on planets, molecular structures and therefore life.  
  Elements such as Oxygen, weak Carbon, Nitrogen, are all products of weak fusion. Elements such as Silver, Gold and even Uranium are also elements created during meteorite strikes and tremendous pressures on and within the Earth. To put it in perspective, if one was to attempt to create a fused geometrically perfect ball of 36 protons, the temperatures would require billions of degrees Celsius, while an imperfect ball might be created at only a few thousand degrees.  
  A core feature of the weak protonic family is the basic usage of strong protonic cores in combinations, most noticeably Hydrogen and Helium.  
  That Hydrogen and Helium can be used to make essentially every element in the periodic table under certain temperatures and processes is a fundamental understanding of Mother Nature's Alchemy. It is the "back door" through which all basic elements and then molecular structures can be created under certain conditions.  
7.14.1 Weak Silicate and Carbon Cores  
  A feature of Weak silicate and Carbon cores is the presence of Protoactives (in some quantity) and therefore the general attraction of electrons and magnetons. Above atomic numbers of 20, almost all metals show signs of magnetic qualities and conduction of electrons in field behaviour.  
  Radioactivity in large amounts generally only appears for most elements above the level of 60. However, from Carbon onwards, there are many isotope relations to elements that show signs of radioactivity (decay of particles from the basic structure).  
  Weak Carbon
   
  Weak Oxygen
 
     
     
     
 
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