THE PHYSICS OF COOKWARE

On May 1st 2015, more than 200 scientists worldwide expressed concern about highly fluorinated chemicals - commonly found in non-stick cookware and food packaging. Fluorinated chemicals effect water chemistry of things within that cooking utensil. The higher the temperature the more fluoride is liberated into the foods and affect the water within the foods. Water has a high dielectric constant. It is 78 in bulk water, to be exact, Why is that critical? How much do you know about semiconductor integrated circuits? In a typical network in an integrated circuit, each network will include at least one driver, which must contain a source or drain diffusion and at least one receiver. This set up will consist of a gate electrode over a thin gate dielectric (look for a view of a MOS transistor on line if you’re unsure of this to get a visual.) DNA only codes for semiconductive proteins.

What did that all just mean? Did I just describe what a cytochrome 1 really does in your mitochondria for you? Yes I did. Fluoride shorts cytochrome semiconductors NADH/NAD+ out. This is relevant because capacitance (ability to store charge) is directly proportional to dielectric constant of a capacitor. Remember things containing fluoride capture electrons and do not let them move & this destroys the dielectric constant in water in foods. This lowers the size of the coherent domains in water in your cells. Smaller CD = fewer electrons = fewer optical transmissions = altered biochemical responses = phenotype change. HOW?

The higher the dielectric constant is in mitochondrial water production, the more charge can be stored so the higher battery function it has and the less ATP you need to generate. This means you need less food. When water is charge separated into a coherent domain the dielectric constant rises to 78 from 160. This creates massive amounts of electrons that can delocalize and move once coherence occurs in a semiconductive lattice. This makes coherent domain water the ultimate place to store the charges that the sun’s light deliver’s to Earth.

Are you beginning to see why Chaplin, Preparta, and Del Guidice’s work on water is pretty important yet? Cells are designed to hold massive amounts of negative charge because of the coherent domains in water's hydrogen bonding network is built from UV/IR light. Melanin & DHA capture and move the sun's charges. This light excites electrons at the same time to expand the size of the coherent domains to make it more probable that the organism can remain quantum coherent below the cell level. This makes a cell a dissipative structure that remains far from equilibrium.

This is why DHA & melanin is the critical part of the antenna complex in cell membranes in mammals.

In the ubiquitination series, I showed you a loss of cell signaling in cytochrome 1, means redox becomes reduced at cytochrome 1 and lowers superoxide burst and affects cardiolipin release. Cardiolipin release changes the size and shape of mitochondria indicating a redox shift has occured. This tells us ultraweak biophoton emission and oxygen consumption has changed metabolically indicating to us a redox shift in metaobolism has occured. This changes the phenotype of the organism by altering the electronic state of the tertiary and quaternary bends in semiconductive proteins. All phenotype change is posttranslational telling us again genes are the the key to decentralized medicine. The light emission is that determines the fine two confirmations.

What are the implications of losing this pulsed superoxide in a zip code of mitochondria? You lose the ability to collect and move electrons in the brain’s neurons using DHA. This means the mitochondria in these neurons cannot harvest those electrons of their excited light energy. One of the most interesting features of electrons is their spin and how they change in mitochondria. All free radicals made in mitochondria have unpair electrons. When an electron is bound to a semiconductor like cytochrome 1 and its electron spins are paired, it loses its spin and magnetism and like photons, only acts like a particle and cannot act as a wave. When electrons are bound to a semiconductor they can only act like a particle and not as a wave. This means cytochromes accept the kinetic energy of the electron and begin to vibrate. Most people do not know about these non linear states found in a semiconducting electric currents because they do not understand the physics of organisms.

This queer electric feature is very useful to life in mitochondria. In this way, none of the stored light energy in an electron in a cells lattice can be thermalized. This means that an excited or ground state electron that is paired in mitochondria, cannot generate any heat if it is stored in our tissues in this way. The surrounding water also helps quench this response. If that DDW water made in a mitochondria is missing this alters phenotype as well. When the electron is not paired a free radical is made and light photons are liberated from the excited electron. As a result, your O2 levels drop in your mitochondria and pseudohypoxia is the result. This is when NAD+ drops. This marks and increase in heteroplasmy which alters phenotype. Do not forget in cell membranes DHA and water meet everywhere in the brain next to that CSF lake. There is a deep reason for this. This is how an antenna works in the human brain. This is how electrons are transferred from an outside source to inside repository for signaling.

CITES

https://www.youtube.com/watch?v=EPVIfagU8hI