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7. Matter- sub atomics and atomics
| 7.5 |
The atomic core "creator" family |
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| The atomic core creator family of particles are the simplest and most stable sub-atomic shapes in the Universe. From the combination of the simplest and most stable Quarks (Up and Down) we see the creation of the Proton and the Neutron. | ||
| Photons, for instance, are not a fundamental building block of say the Hydrogen atom's core. Therefore the building blocks of photons are not considered part of the form creator family. | ||
| It is because the Protons and Neutrons create atomic form, that we call them "creators". Consistent with the previous two chapters, we see the interaction of creators and destructive attractors at each and every level of matter in the Universe. Let us look at the specific features of each member of the atomic nuclei family. | ||
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| 7.5.1 | The Proton (atomic creators) | |
| The Proton is 2 creator "Up" Quarks and 2 "Down" (destructive attractor) Quark. | ||
| Consistent with our Universal concept of spin, we give the Proton a relative level of kinesis of 1. This is consistent with current scientific "charge" values of 1 for the Proton. | ||
| The size of the proton is considerably less than 1 nanometre ( a billionth of a metre), which is the diameter of a standard atom. The distance between the outer electron shell and the nucleus of an atom (where Protons are), is estimated to be 10,000 times the diameter of the nucleus. Because of these extremely small distances, the relative theoretical kinesis of a Proton and its estimated "mass" are more useful measures. | ||
| The relative mass estimated of a Proton is 1.6726 x 10- 27 kg. | ||
| 7.5.2 | The Neutron |  |
| The Neutron is 2 "Down" (destructive attractor) Quarks and 2 "Up" creator Quark. | ||
| We give the relative kinesis of a Neutron to be +0.3. This is consistent with the latest scientific analysis of ascribing a small positive charge to the Neutron. | ||
| However, the Neutron overall is neither "unattractive", nor "attractive" to other particles, except in enhancing the overall attractiveness of the proton core. | ||
| The mass of a neutron is estimated at 1.6748 x 10- 27 kg | ||
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