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Material Layer
- Material Layer
- Sublayers
- Media
- Substances
-
Quanta
- The Table of Elements
- Nonmetals
- Semimetals
-
Metals
- Metals
- Lithium
- Beryllium
- Sodium
- Magnesium
- Aluminum
- Potassium 19
- Calcium 20
- Scandium 21
- Titanium 22
- Vanadium v023
- Chromium 24
- Manganese 25
- Iron 26
- Cobalt 27
- Nickel 28
- Copper
- Zinc
- Gallium 31
- Germanium
- Arsenic
- Rubidium
- Strontium
- Yttrium
- Zirconium
- Niobium
- Molybdenum
- Technetium
- Palladium
- Silver
- Cadmium
- Indium
- Tin
- Cesium
- Barium
- Lanthanum
- Gold
- Mercury
- Conservation
- Actions
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Table of Contents
The Material Layer is divided into Upper, Middle, and Lower Sublayers.
| Sublayer | Media | Substance | Quanta |
|---|---|---|---|
| Upper | Gas | Aetherspace (Atomic Space) | 1st Gen Quarks |
| Mid | Liquid | Mirco Aetherspace (Gluons) | 2nd Gen Quarks |
| Lower | Solid | Dimensional Aetherspace (Lattice) | 3rd Gen Quarks |
The Material Internal Boundary
Finding the common ratio of the Radiant and Convertible boundnaries lead to a ratio of 244,944 base 10 or 5,130,000 base 6.
And so we predict that a larger collider will expose a particle with 482 - 492 GeV mass which separates mesons and protons for the Strong Force or Earth Element.
Physics will then wrongly call it as dark matter when it is really just as useless as the Higgs.
It follows that the Future Circular Collider being built at a cost of $17b is a sheer waste of money. It is merely an expensive project to keep physicists employed in the Religion of Physics, just as a huge cathedral keeps priests employed.
Sublayer of Aetherspace Substance
| Sublayer | Media |
|---|---|
| Upper | Nonmetals |
| Mid | Metalloids |
| Lower | Metals |
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