The second part of this theory concerns itself with the breakdown and operation of perceptual data for this I should make you familiar with some other aspects of studies concerning the frequency levels of organic and biological matter. The basis of the first part of the theory concerns itself with measurements of this vibration, which I believe operate a bit differently from regular measurement techniques of organic and biological matter. I call this theory Quantumfication it is based on the principle of quanta or quantum theory, Quantumfication states that for every unit of energy there is a reflective unit, which is absorbed from the energy exchange. The system is based on fractals and works as follows:
This system of measurement allows one to track the absorption of energy based on energy discharge. This down the road could help in the repair of neurological system whose vibrational properties have been altered do to injury. This may be done by matching chemical properties found in normal neural tissues, and adjusting chemical properties so that the vibrational parameters are re-adjusted therefore allowing neurotransmitter and receivers to understand the information again. The combination of these systems seems to indicate some type of adhesion to neuron cells a type of binding. I was unaware of the work done by Critch & Koch until recently and after reading there theory of binding I was quite pleased that my own hypothesis seemed to support some of their findings.
For in fact it is my belief that the structures of parcepts and cocepts is indeed the way information is processed by a form of binding perceptions and experience into mental models stored in the memory centers of the brain. The vibrational properties of matter that are interpreted by the visual cortex and other sensory input methods which lead to building the primary vocabulary needed to store a complete model of the object based on stimulus. This oscillation is itself the code by which cognition and consciousness work.
*1 “A group of scientist at the University of Chicago Ling, Gerard and Libert working with frogs studied the cortex where the neuron layer was only one cell thick and the cells where arranged side by side all pointing in the same direction. In such areas they found a negative potential on the dendrites (the short incoming fibers) and a positive potential at the ends of the axon (the longer outgoing fibers). This indicated a steady direct current along the normal direction of impulse transmission. The entire nerve cell was polarized. In another set of experiments on the brains removed from frogs and kept alive in culture, the Chicago group found that direct currents swept across the entire surface of the cortex in very slow waves which could be reproduced experimentally by applying chemicals such as caffeine to a single spot on the surface. When they made a cut on the brain severing nerve fibers these DC traveling waves would still cross the cut if the two surfaces where in direct contact. If the researchers held the cut open and filled it with a saline solution that matched the body fluids, they waves could not cross the gap. These were particularly important observations. They indicated that the current was transmitted by structures outside the neuron.”
*2“Only one research team followed up this work, some ten years later Sidney Goldring and James Oleary neuropsychiatry at the Washington University School Of Medicine in St. Louis, recorded the same DC potentials from the human scalp, from the exposed brain during surgery and from the brains of monkeys and rabbits. As noted before, the potentials varied in regular cycles several minutes long, like a basso continuo under the EEG, in fact. Goldring and O’leary found waves within waves: Written upon the slow major swings were lesser voltage changes. These were weak potentials measured in micro volts (1 millionth of a volt) and varying in waves of 20-30 cycles per minute, a sort of pianissimo” inner-voice” in three part electrical fugue.”
One more scientist who did work in this direction was a Russian named
*3“Szent-Gyorgyi he pointed out that the molecular structure of many parts of the cell were regular enough to support semi-conduction. This idea was almost completely ignored at the time. Even when Szent-Gyorgyi expanded the concept in his 1960 Introduction to a sub-molecular Biology, most scientists (except in Russia) dismissed it as evidence of his advancing age. But that little book was an inspiration to me. I think it may turn out to the man’s most important contribution to science. In it he conjectured that protein molecules, each having a sort of slot or way-station for mobile electrons might be joined together in long chains so that electrons could flow in a semi-conducting current over long distances without losing energy, much as in a game of checkers one counter could jump along a row of other pieces across the entire board. Szent-Gyorgyi suggested that the electron flow would be similar to photosynthesis: another process he helped elucidate, in which a kind of waterfall of electrons cascaded step by step down a staircase of molecules losing energy with each bounce. The main difference was that in protein semi-conduction the electron energy would be conserved and passed along as information instead of being absorbed and stored in the chemical bonds of foods.”
One possibility concerning the coding of information in cells could be that the electron activity (pulse) behaves like a type of Morse code all nutritional information lets say automatically interpreted as a reflection of DNA the electron activity acts like a old computer punch card only activating that information that is needed.This goes back to the information shown in my previous chart concerning codes and frequency, the idea that the rate of pulse that the frequency oscillates at is itself the information.
The indication of these patterns alludes to the idea of a hierarchical structure modulating the dissemination of information or code. I have come to term this structure and concept as the schematic. The principle behind a schematic is that it modulates information on all levels as kind of a contextual processor. I believe its foundation works on spectrum light from electron waves and the frequency of cellular metabolism. The information is then coded in cells and dictated to RNA to for protein chains as a unique combination of amino acids.