Thorium magnified ten trillion X

thingiverse

This theory is not endorsed by educators, however. It relies on May's iron theory of 2017. The thorium-232 nucleus was modeled starting with radon as a foundation element. Two neutrons were added to the exterior of Rn and then one proton to form francium (see image). Next, radium was simulated using Blender 3D. Actinium is just one proton away from Ra. Four neutrons and one proton were finally added to thorium's 3D shape in the most favorable pits. Imagine each baryon consumes a liquid, holding the nucleus together with its flow. Any remaining protons for Th-232 will join the lone proton on Ac. That last proton sticks out above the big pyramid, making it vulnerable to impacts missing the armor of the six-sided pyramid. This is a geometric reason thorium is a better fission candidate than radium. See figures where this protruding proton is marked by arrows, confirming the static nucleus theory for Th-232. Thorium is an incremental element based on the foundation element radon. A foundation element has a cube with six pyramids to protect its faces. Incremental elements are not as straightforward as foundation elements. Protons form lines of protons.