Plasmatic Periodic Table of Elements - A new understanding of atomic structures
Keywords: atomic mass, measuring elements.
Published on: March 2019
We need a new understanding of atomic structures based on an analysis of plasma Mr. Keshe said, “In a plasma we don’t see an electron”. “Periodic table goes with physics not the science of plasma”. “A plasmatic condition which is the work of the universe”; “throws the whole periodic table into turmoil”. “Because it has numbers of electrons, protons and neutrons and we don’t have that” .
This paper presents a method to map energy signatures, measure relative energy levels and mass levels, plot positioning and measure the gradient flow and direction of any plasma or plasma interaction.
This presentation draws from the 56th KSW , 60th KSW  and 7th Health workshops  as the principal concepts but also from all of the public and private teachings available in an attempt to correlate the information from the teachings of Mr. Keshe. Mr. Keshe said, “in the universe there is only one structure” .
Analysis of a Plasma
Mr. Keshe in one of the KIDS workshops said, “plasma is a fancy word for Magrav fields in a container. The trick is to know how to open the container, use the fields and put them back in the container when you are done. To understand this, we can look at the structure of a plasma. Mr. Keshe in  said, “the gravitational magnetic field of a plasma divides into 12 segments.
There is a potentially infinite number of layers that will continue repeating the same pattern. The ratios of the position of each layer relative to the central core and to each other, remain constant at every level. These ratios have correlations that have been measured numerous ways. The Fibonacci sequence, golden ratio, coulomb barrier ratio, harmonic overtone series ratio and more, are different ways of measuring the positioning of the layers of a plasma.
Each black dot represents the position where two field lines cross. These positions Mr. Keshe described as “water from a shower head going into a drain on the floor of the shower” . The black dots represent “drains” in the floor.
The position of the black dots represents “drains or portholes”. The container is the energy splashing back into the environment, or “drilling a hole in a piece of wood” and “sawdust” that sprays back. In Figure 2 where the field lines radiating out from the centre cross, the “sawdust” generated, create miniature versions of the totality. Figure 2 shows the “sawdust” at the third layer however; each layer has its own layer of “sawdust” not represented in this figure. The figures are fractal geometric patterns. If you understand the structure at one level (micro) you understand it at any level (macro).
If we look at this layered structure, we can see a central core in the center (or the egg yolk), a transition (or the egg white) and a layer of more dense energy due to the “sawdust” (or the egg shell). A plasma has multiple layers and is an egg inside an egg inside an egg etc.
Plasmas are energy packages. Energy in this work is defined as two types of motion:
1. Expansion and contraction of the diameter of the fields, or “heartbeats” measured in comparative frequencies and diameters.
2. Flow of “rivers of energy” measured in comparative gradient flow and mass rates.
These types of motion help define a plasma field strength based on “comparative energy levels” and can only be measured as “ratios”. Therefore, we can measure the relative differential of any plasma or interaction of plasmas, but not the absolute value.
Every layer of a plasma has a diameter that expands and contracts at a more or less constant rate. Each layer is positioned relative to the central core (radius) depending on its heartbeat rate. The relatively slowest beat rate will be positioned at the outermost layer and the fastest at the center. The energy levels are based on relative beat rates and diameters according to the ratios 1/1, 2/1, 3/1, 4/1, 5/1, 6/1 etc.
The 1/1 ratio represents the slowest beat rate and is the layer with the largest diameter. Each successive layer has a comparatively faster beat rate and smaller diameter position based on the ratios. We can compare any layer to any other layer using the ratios two to three, two to four, two to five, three to four, three to five etc.
To recap what we have shown, rivers of energy interact, create “portholes” that leave a remnant equal to the difference of the fields going in and out of each portal. The remnants then form into plasmas with multiple layers, each having a heartbeat, or a heartbeat inside a heartbeat inside a heartbeat etc. Plasmas can be seen as multiple core reactors, with a spectrum of energy levels that can be measured comparing beat rates of one layer to another.
We can use the heartbeat rates to measure the energy levels and positions of each layer relative to the central core, and to each other. Gradient flow is the relative flow rate of the “rivers of energy” that create and connect each layer to each other layer and to the central core. The direction of flow can be compared to arteries and veins. Arteries flow out of the heart and veins flow in. A plasma is a heart in a heart in a heart, so the flow direction is from the inside out. However, there is always a two-way flow. As the difference between any two layers increases the flow rate increases.
For example, the ratio between layer two and layer eight is 2/8. This means layer two is beating two times every time layer eight beats eight times, and the diameter of layer eight is one-fourth that of layer two (2/8 =1/4). The gradient between layers two and eight is one time slower than eight to one and four times faster than two to one.
Heartbeat rates measure energy values. Diameter rates measure the relative amount of space a plasma takes up. Gradients measure flow rate and direction of the arteries and veins or “rivers of energy” that interact creating and connecting the multiple layers of a plasma.
Fourier Spectral Analysis
A Fourier spectral analysis is a graphic representation of the position of the layers of a plasma based on beat rates measured in relative frequencies, and diameters measured in relative amplitude.
A Fourier spectral analysis shows the relative beat rates measured in frequencies (horizontal) and the relative diameters measured in amplitudes (vertical) of the layers in a plasma. It is important to remember that all measurements are relative values not absolute values. In Figure 3, measuring from the outside in, the first layer’s frequency is X times 1. The second layer’s frequency is X times 2, or a two to one ratio and so on. X times 1 is the fundamental frequency or the slowest relative frequency with the largest diameter. In this way we can measure the cascading of the layers as the structure expands and contracts.
In this paper “Mass” is defined as: Mass is the amount of plasmatic material that manifests in an environment. The mass of any entity is equal to the difference of the fields interacting at a given position (the “sawdust”). As an entity manifests, each layer within its structure uses a portion of the total mass. The relative mass of each layer corresponds to that layer’s relative position and heartbeat rate. We can measure the relative mass of each layer using the same ratios as the relative heartbeat, diameter and gradient flow rates.
In the macro, all universes exist as the interaction of field lines (“rivers of energy”) within the structure of the Unicos. The masses of each universe are equal to the difference of the field lines interacting (“sawdust”).
The relative mass of each universe is relative to the interaction unique to its position. There can be universes with relatively large masses and some with relatively small masses but none with a mass equal to or greater to that of the Unicos. There is a distinct mass differential between the mass of any given universe and the mass of the Unicos.
In turn every universe is divided into galaxies. Galaxies can have relatively large or small masses but never equal to or greater than the universe they are a part of. And so, it goes with solar system mass levels, planetary mass levels, molecular mass levels, atomic mass levels etc. These are distinct divisions inherit within the structure of a plasma.
Each plasma or “energy package” is a multiple layered structure with cascading layers expanding and contracting. This cascading effect can be measured with simple ratios as described. We now have a mechanism to measure relative values for at least four parameters of any plasma; frequency (heartbeat rate), amplitude (diameter), gradient flow (flow rate) and mass (sawdust). These four parameters make up a plasma field strength.
Plasmas at the Atomic Level
The field strength of all elements has a mass on the atomic level. Atoms can have relatively larger or smaller masses, but no atom can have a mass equal to or greater than the molecule it is a part of. Atoms are plasmas that exists due to the interaction of the fields within the structure of a molecule. The atoms in turn make up the structure of the molecule. Hydrogen exists due to the interaction of the fields within the structure of the amino acid molecule. Amino acid molecules exist due to the interaction of the fields of the planet, and so on.
In order to understand atomic level plasmas, we must analyze the molecular level plasmas the atoms are a part of. The amino acid molecule is Hydrogen, Carbon, Nitrogen and Oxygen. The atomic numbers associated with each element can be used as measurement values or ratios compared to Hydrogen as the bass line or a fundamental energy level (1/1). We can analyze the interaction of each atom to each other atom, then how they interact collectively. Hydrogen is 1/1, Carbon is 12/1, Nitrogen is 14/1 and Oxygen is 16/1. Carbon to Nitrogen is 12/14. Carbon to Oxygen is 12/16.
Oxygen’s energy level as compared with Hydrogen is 16/1 or more or less equal to the field strength of Hydrogens sixteenth layer. The second layer of Oxygen is more or less “in tune” with Hydrogens thirty-second layer. The third layer of Oxygen is in tune with Hydrogens forty-eighth layer etc.
Only the Layers that Hydrogen and Oxygen have in common link.
We can repeat this process comparing Hydrogen to Nitrogen (14/1, 28/1, 42/1, 56/1, etc.) and Hydrogen to Carbon (12/1, 24/1, 36/1, 48/1 etc.). We can also compare Carbon to Nitrogen, Carbon to Oxygen and Nitrogen to Oxygen.
Figure 7 is a partial view of the energy signature of an amino acid molecule. The numerical values are spikes in amplitude due to the interaction of the layers that Carbon, Nitrogen and Oxygen have in common with Hydrogen. The numbers 12, 14 and 16 represent the fundamental or first layers of C, N and O respectively; 24, 28 and 32 represent the second layer interactions or 2/1 ratios; 36, 42 and 48 represent the 3/1 ratios or the third layer interactions. The interactions continue but are not visible in this Figure. This Figure does not show the interaction of common layers between N and C, N and O and C and O. But they can be measured in the same way and are part of the overall field strength of the amino acid molecule.
Measuring the Elements of the Periodic Table
Hydrogen, Carbon, Nitrogen and Oxygen exist due to the interaction of the fields within the structure of the amino acid molecule. Every atom on the periodic table exists due to the interaction of the fields within the structure of the amino acid molecule and can be measured using Hydrogen as a bass line or fundamental energy level.
Hydrogen is 1/1. Deuterium is 2/1, Tritium is 3/1, Helium is 4/1, Oxygen is 16/1 and Iron is 56/1. This Figure shows only the first layer of each element not the interactions of all the layers which would appear in an actual spectral analysis. We can measure the interaction of any element to any other element, layer by layer following the procedures shown.
The behavior of any two or more plasmas will be determined by how many, and which layers connect. If many layers link, there will be a different behavior than with a fewer layers linking. If there are the same number of, but different layers linking, there will be a different behavior. Figure 9 represents a molecule with two atoms. The two atoms are represented by blue and green circles. Layers that have similar beat frequencies will generate rivers of energy that extend beyond their respective containers to link at a balanced position between them. The energy rivers pour into the center like water into a drain. The backsplash is the molecule represented by the brown circles.
The backsplash is the vortex generated from the center extending to the outer ring. The brown circles represent the molecule generated by the interaction of the layers of the two atoms linking at the center. The number of layers and which layers link determines the layer structure or energy signature of that molecule.
A molecule has an energy signature determined by the interaction of atoms linking at a balanced position within its structure. Each atom is positioned based on its respective beat frequency relative to the molecule’s central core. Atoms are part of the molecule, generated from that molecule. Hydrogen, Carbon, Nitrogen and Oxygen are created by the interaction of the fields within the amino acid molecule they are a part of.
The position of the layers, or energy signature, of an amino acid molecule is determined by the interaction of similar layers between each element linking at a balanced position or a central core. We can map energy signatures, measure relative energy levels, positioning, gradient flows and directions, and mass levels using the methods described.
A plasmatic condition which is the work of the universe; “throws the whole periodic table into turmoil. (…) Because it has numbers of electrons, protons and neutrons and we don’t have that” . With a new understanding of plasma, the elements of the periodic table can be measured as energy packages with relative energy levels.
KF SSI, “7th Keshe Health Teaching Workshop,” 24 Oct 2014. [Online].
 M. Keshe, “56th Knowledge Seekers Workshop,” 2 Apr 2015. [Online].
 M. Keshe, “60th Knowledge Seekers Workshop,” 7 May 2015. [Online].
 KF SSI, “5th Kids Knowledge Seekers Workshop,” 5 Nov 2014. [Online].
 KF SSI, “14th Kids Knowledge Seekers Workshop,” 7 Apr 2015. [Online].
 KF SSI, “7th Keshe Health Teaching Workshop,” 24 Oct 2014. [Online].