Technetium

Technetium is a light element that is radioactive and decays away to nothing, with no stable isotopes. Element 43 has a nucleus with the geometry of a cubic hexapyramid. The cube is 4x4x4, unlike most elements with a 3x3x3 cube at the center of the nucleus. 

The cube 4 element Tc is not durable. The 4-cube is not hinged on anything at its center point.

Figure 1: components of element Tc nucleus

Figure 2: silhouettes of an unstable and a stable element

Figure 3: Mercury, Zirconium, Technetium, and a 5-cube element

The Tc shape was found after Pm was discovered to have a Cube 4. Promethium was found after trying a generic design of a cube 4, like iron. The six pyramids on the faces of the cube gave the atomic weight of Pm.

4x4x4 = 64

6x14 = 84

A = 64+84 = 148

Promethium has a 147 isotope, so this 148 is accepted for now.

61 Pm 167 has a 4-cube. It is light and unstable, like Tc.

Stability Idea Proposed

Imagine trying to balance three basketballs on your hand as a vertical stack of spheres. That is more than an analogy, it is an accurate mock up of the stability and controllability of a 5x5x5 cube in a nucleus, under the influence of a baryon-centric field called gravity or the strong nuclear force.

One ball can be balanced in a stable way, like Carbon with its 2x2x2 cube. Only one ball is balanced to represent a Carbon nuclear cube. A basketball can be spun on one finger and kept on top for an unlimited time. That is the Carbon cube-2 mock up, the finger spin balance trick done by many basketball players.

Two balls are difficult to spin on a fingertip, like Technetium, with its cube-4 in its center of its nucleus, in this proposed theory. It is possible to keep two basketballs on top of each other for a limited half-life, like Promethium with its 4x4x4 cube.

Two balls are easy to balance with the palm of the hand holding the bottom ball and a single ball is balanced on that. Iron with a 3x3x3 cube is evaluated that way.

Three balls is the limit for an Iron-like 5x5x5 cube of 123 Fo 305. With six degrees of freedom, the hand can rotate and translate the bottom ball to control the top ball. Similarly, a nucleus can maintain the cube-5 as a stable geometric object by means of hydrodynamic flows of an eight dimensional continuum fluid. The eight dimensions are named:

t time grows outward from baryon

x

y g-space sinks in

z

Ht magnet time sinks into proton from electron

Ex

Ey e-space sources outwards from proton

Ez

7/26/2017 acf

The Riddle of Technetium Solved

Carbon begins the creation of the cube using a triple alpha coincidence. That makes a cube-2.

When several cube-2 nuclei collide, that preferentially makes a cube-4. That preference prevents cube-3 from being created at this stage.

All foundation elements with a cube-3 were originally cube-4 element candidates. Those cube-4 candidates that obtained six pyramids became quasi-stable as Tc, Pm, Pa, and Og. Those candidate elements with cube-4 at the core that did not obtain six pyramids decayed into cube-3 elements.

The pyramids of protons and neutrons have some invulnerability to additional fusion. After the capstone is fused, there is no hydrodynamic flow direction to hold a candidate fragment in place.
Unidirectional incoming pieces can be drawn onto the sides of the pyramidal cube, or they can grow along the tail, as in Uranium.

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