
Integer geometric nuclear modules #2 of 3
thingiverse
The cube-4 Blender file and .obj file for nucleii shapes are ready. Cube-2, pyramid-5, pyramid-4, dilator-34, and cube-4 modules are visible on the screen. These elements can be assembled into a static nucleus using the first group of integer geometric nucleon modules, allowing for tantalum to be combined with them. This is preparation for an essay about promethium, a radioactive and unstable cube-4 architype. Examining the periodic table of nuclear structure, nitrogen, iron, and promethium are found to be the archetypal elements for cube-2, cube-3, and cube-4, respectively. This means that cube-2 has one layer on each face, while cube-3 has two layers covering each face, and cube-4 has three layers protecting each face. The nucleons nestle together in a harmonious balance of form and function for N, Fe, Pm. Nitrogen is used in explosives, iron makes magnets, promethium is highly radioactive with a 2-year to 12-year half-life, but it is lighter than gold, tungsten, or mercury. The riddle is solved: cube-4 is unstable and appears in only four elements - Tc, Pm, Pa, and Og. The integer geometric objects are provided for your 3D printer in three loads: Light elements modules include cube-2, cube-3, pyramid-2, 3, and 4 up to molybdenum Middle elements consist of cube-4, pyramid-5, dilator-34 up to tantalum Massive elements feature pyramid-6, dilator-45 up to Og
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