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7. Matter- sub atomics and atomics
| 7.13 |
The strong protonic family |
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| The strong protonic family is a related family of Proton core structures that are formed at various pressures and temperatures in either Stars, the birth of stars (nebula) or the death of stars. | ||
| The temperatures required to form these geometrically superior structures are enormous. For instance, just to fuse hydrogen protons into helium (2 protons) requires temperatures somewhere in the order of 20 million K. | ||
| The relative abundance of superior Carbon on Earth, indicates that the temperatures at the birth of our Solar System were many times higher than the temperatures at the core of the Sun. It also indicates that heavier proton core structures are a natural consequence of star creation, providing supporting argument that planets are a natural consequence of star creation. | ||
| Given the temperatures required to fuse these cores are so high, their formation is limited to a few major events in space, such as new solar systems forming, the end of stars or the belly of giant star. They are not formed in the atmosphere of planets. | ||
| 7.13.1 | Hydrogen and Helium Strong Protonic Cores |  |
| Hydrogen and helium strong protonic cores are the building blocks of the Weak protonic family. They are the lightest protonic cores and are non magnetic and non electric (poor conductors of electrons and magnetism). They principally behave in large quantities and lower pressure environments as gas. | ||
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| 7.13.2 | Strong Beryllium Protonic Cores |  |
| Form the basis of our strong reactive non-electronic/magnetic gases as hydrogen cores bond (weakly). | ||
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| 7.13.3 | Strong Carbon Protonic Cores |  |
| Carbon forms the basic building block for the strongest molecular structures in the Universe and are the foundations for all metals- silicates. Unlike most metals, Carbon, particularly strong Carbon is an extremely poor conductor of magnetism and electrons, given its geometric spherical strength and therefore reluctance to give up electrons. | ||
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| 7.13.4 | Strong Silicon and Calcium |  |
| In the formation of our Solar System the temperatures were not high enough for large quantities of strong proton cores above Carbon and Silicon to be formed. Consequently, elements with an atomic number of 6 and above are largely weak nuclear fusion based structures and protoactive hybrids ( Isotopes). | ||
| As you will see by the diagram of strong Silicon over the next pages, pure strong Silicon is an good conductor of photons, electrons as well as magnetism. Hence the advent of optic fibres has dramatically improved the transmission of human designed electro-magnetic particle communications. | ||
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