Periodic Table

A new version of November 21, 2021 is provided. It changes the shapes of elements from cadmium to iodine.

The positions of all of the protons and neutrons are given in one file. It uses the .xyz file format. Here is the top of the file:

1

hydrogen

p 0 0 0 

4

helium

p 0 0 0 

p 2 0 0 

n 0 -2 0 

n 2 -2 0 

The link to the file is here: Nuclear Data

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Rules of nuclear structure

The Twenty Rules of Nuclear Structure Using the Pyramidal Cube Theory

Rule 1: There is a simple cubic lattice of protons and neutrons at the core of each element that

has a Z atomic number that is greater than five.

Rule 2: Protons in the cube are far from each other as if electrostatic repulsion is in effect.

Rule 3: The six faces of the cube are armored by pyramids of protons and neutrons.

Rule 4: Protons outside of the cube tend to form lines of protons as if electrostatic repulsion is

not true in all three dimensions.

Rule 5: There are 19 foundation elements upon which the 90 incremental elements are built. The

19 foundation elements are:

carbon, oxygen, neon, phosphorus, argon, iron,

germanium, krypton, zirconium, cadmium, xenon, cerium, hafnium,

tungsten, polonium, radon, uranium, mendelevium, and nihonium.

Rule 6: The shapes of foundation elements do not depend on protons being different from

neutrons. Both are treated equally, as baryons, to define the silhouettes and 3D shapes of each

element.

Rule 7: Four sides of the cube have pyramids of the same shape (axial symmetry), for foundation

elements. The top and bottom pyramids can have different sizes. All of the side pyramids are equal

in size and shape. Rotations of pyramids do not need to be identical when positioned on the four

side faces of a cube.

Rule 8: Pyramids should be rotated to avoid creating a three-way intersection of lines of protons.

Some elements cannot avoid that structure, like promethium and nitrogen.

Rule 9: Incremental elements have added nucleons on the exteriors of foundation elements to

fill the gaps between pyramids. There are 90 incremental elements based on the foundation

256

elements. Nine elements are not based on a foundation element. They are H, He, Li, Be, B, Tc, Pm,

Pa, and Og.

Rule 10: An incremental element is assembled by first placing the neutrons into the deepest pits

of a foundation element and then adding one proton into the deepest pit where protons tend to

form lines of protons. If a line cannot be formed, the added proton can go anywhere that does not

join 3 protons together in a triangle. If that is not possible, a proton can go anywhere.

Rule 11: Light elements have a sparse allocation of protons near the center and a denser

allocation of protons near the tips of pyramids.

Rule 12: Pyramids can be up to six layers thick.

Rule 13: Contraction of pyramid bases occurs increasingly with heavier elements. A six-layer

pyramid can rest on a five-layer contracted base, which can reside on a four-layer contracted base,

which can reside in a three-layer cube, nestled into a stable arrangement.

256

elements. Nine elements are not based on a foundation element. They are H, He, Li, Be, B, Tc, Pm,

Pa, and Og.

Rule 10: An incremental element is assembled by first placing the neutrons into the deepest pits

of a foundation element and then adding one proton into the deepest pit where protons tend to

form lines of protons. If a line cannot be formed, the added proton can go anywhere that does not

join 3 protons together in a triangle. If that is not possible, a proton can go anywhere.

Rule 11: Light elements have a sparse allocation of protons near the center and a denser

allocation of protons near the tips of pyramids.

Rule 12: Pyramids can be up to six layers thick.

Rule 13: Contraction of pyramid bases occurs increasingly with heavier elements. A six-layer

pyramid can rest on a five-layer contracted base, which can reside on a four-layer contracted base,

which can reside in a three-layer cube, nestled into a stable arrangement.

Rule 14: Sphere stacking for a pyramid does not need to nestle into pits of a cube and the pyramid

can be stacked onto a cube vertically. For example, in oxygen, a two-layer pyramid can be stacked

onto a two-layer cube.

Rule 15: Pyramids can have lines of protons plus additional protons at the corners of pyramids to

achieve the Z atomic number that is known by standard science.

Rule 16: Symmetrical arrangements of protons are preferred over non-symmetrical structures.

The same is true for neutrons. The two-layer pyramid sets the example in iron. The cube-2 and cube-

3 are also symmetrical in their allocations of protons and neutrons.

Rule 17: Each nucleus is shaped to provide the isotopes with A and Z which were established

from old experiments for established physical tables. A is the mass number. Z is the atomic number.

Rule 18: Each nucleus is shaped to provide the isotopes with A and Z which were established

from old experiments for established physical tables. A is the mass number. A is equal to the number

of protons plus the number of neutrons. Z is the atomic number. Z is equal to the number of protons

in an element.

Rule 19: Each proton has one electron paired with it using a line of flux. This drives multiple

protons into a single line of protons that touch each other.

Rule 20: The longest distance from each neutron to a proton is one diameter of a neutron.

January 3, 2024 Alan Folmsbee

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This periodic table of the elements shows 18 foundation elements in silhouette, along with the incremental elements that use them inside.

Figure 0: rough copy of the periodic table for this blog.

Here is the link to the most detailed file for the table you can download.

It is from June 19, 2021.

The Periodic Table is next shown in 3 sections from February, 2020, before the pandammit:

Diamagnetic section on the right

In the middle of the Table are the elements that all have a cube-3 at their cores. Only the bottom row is diamagnetic. See next figure...

The next section is on the left of the Periodic Table.

Figure above has even cubes featured. Most of the left side elements are paramagnetic.

The silhouettes have little to do with protons versus neutrons. They are both treated interchangeably for the 18 foundation elements. The incremental elements with blue protons also have silhouettes like the foundation elements on which they are based.

2/24/2020 acf