The lemon is not an acid in Reams
terminology since an acid to him is a cation. Let's go back to
basics in RBTI nomenclature and let's look at a simple atom of
Nitrogen which can be either anionic or cationic:
Anionic Nitrogen - One atom would have 1 cation in the core and 1
anion in the shell in orbit. The cation in the core is rotating
counterclockwise as you look down upon it and it is positively
charged. The anion in the shell is rotating clockwise and is
negatively charged.
Cationic Nitrogen - One atom would have 1 anion in the core and 1
cation in the shell in orbit. The anion in the core is rotating
clockwise as you look down upon it and it is negatively charged. The
cation in the shell is rotating counterclockwise and is positively
charged.
Which direction would the anionic nitrogen be moving? It would be
moving up toward the Van Allen Belt which is anionic.
Which direction would the cationic nitrogen be moving? It would be
moving down toward the earth which is cationic.
How many Milhouse units of energy are in the electron of the shell
of the anionic nitrogen? 1 to 499.
How many Milhouse units of energy are in the proton of the core of
the anionic nitrogen? 500 to 999.
How many Milhouse units of energy are in the electron of the shell
of the cationic nitrogen? 500 to 999.
How many Milhouse units of energy are in the proton of the core of
the cationic nitrogen? 1 to 499.
Nitrogen is an isotope which, in RBTI terminology, is an element
that can be either cationic (positively charged, turning counter
clockwise, and heading downward toward the earth) or anionic
(negative charged, turning clockwise, heading upward toward the Van
Allen Belt).
pH has nothing to do with an element being cationic or anionic. It
only measures the resistance between the two. Read Beddoe's
definitions:
- pH - A measure of resistance. A pH of 7 means that there is an equal
resistance between anions and cations. (Olszta's note: however, it
doesn't indicate whether the substance being tested is anionic or
cationic)
- Resistance - The effect produced when anions and anions or cations
and cations or anions and cations of differing Milhouse unit value
encounter each other. One could say that resistance is a type of
friction which causes energy to be given off. (Olszta's note:
however, it doesn't indicate whether the substance is anionic or
cationic)
Beddoe defines acid as being "a solution with a resistance range
(pH) from 00-7.0. However, Dr. Reams does not define it that way.
The terms "acid" and "alkaline" are (at least as far as I can see)
defined by Dr. Reams as being cationic and anionic (according to the
aforementioned definitions) respectively. Therefore, when Dr. Reams
speaks of HCL being anionic and/or a base, those two terms
mean the same to him and refer only to the direction and charge of
the ions both in the core and shell of the molecule.
Back to the lemon: Even though the pH is "acid" per Beddoe's
definition in the previous paragraph, according to Dr. Reams it is
really "alkaline" seeing that acid and alkaline to him refer to the
charge and spinning direction of the ions that make up the
substance. So I have to assume that the atomic structure of the
shell of the molecules making up the lemon is an anionic pattern
(negatively charged, turning clockwise and upwards toward the Van
Allen Belt) yet the resistance or the friction between the anions
and anions, cations and cations, and anions and cations is giving
off more cationic energy and hence the "acid" pH reading.
Go back to Beddoe's book in the chapter pH Principles where he
discusses the principles of tissue change from the best line of
resistance (Chapter 7 / 77 in my copy). He gives a chart where he
shows what is happening when the body chemistry is going Toward
Cationic versus Toward Anionic. He then describes how when the
chemistry moves to cationic, the actual breakdown is occurring in
the upper (more anionic) part of the organ as the energy is flowing
down from the top and moving through the bottom of the organ. Hence,
the pH will give an acidic reading. It will be vice versa if the
energy flow is moving upward, i.e., the loss of energy is coming
from the bottom part of the organ and going out through the top of
the organ and being lost in anions and hence there will be an
alkaline pH reading. BUT THIS HAS NOTHING TO DO WITH THE OVERALL
STRUCTURE OF THE BODY, i.e., THAT OUR BODIES ARE CATIONIC BODIES,
NOT ANIONIC BODIES. The pH is only measuring the resistance or lack
of resistance of the energy flow in the body.
Back to the so called "acid" lemon AGAIN! The energy being lost in
the lemon is being lost from the top of the atomic molecule
structure downward, that is, the resistance of the electrical flow
of energy in the lemon is lower than neutral and hence the pH reads
acid. But the overall structure of the lemon is anionic (I'm taking
Dr. Reams at his word here) meaning that the core nitrogen of every
molecule is cationic but the elements in orbit in the molecule are
circling in such a fashion (clockwise) and are negatively charged to
make the lemon anionic.
At least that's the way I see it. It was always hammered into our
heads that pH is only a measure of resistance, not a measure of
quantity or quality. And I don't think it is possible to understand
the RBTI unless one can get this most important point into one's
mind. Reams said all foods are cationic except the lemon, yet the
lemon turns out to be acid on the pH scale and I dare say that many
foods we eat would end up being alkaline if we tested the pH of
them.
But again, the pH is only showing the resistance or lack thereof and
the result of the friction between the ions and the energy being
given off by them. It does not tell us if the substance is anionic
or cationic; it only tells us how the energy is being lost.
Michael Olszta
RBTI Consultant |
