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The inner compartment from the mitochondria is convoluted. It’s shape is the response to electric forces distorting the membrane with proton flow creating the outer and inner cristae, but by two separate mechanisms. The inner membrane will be the site in the electron transport chain reactions which is extremely negatively charged. This charge separation results in a crystal form of water which has semi-conductor properties. In fact much with the inner compartment can have the electrical properties of an PNP-junction semi-conductor as a response to this. And in this environment the negative charge field is sufficiently strong enough to break down the N region and force the protons out across the path in the outer cristae in the column, and ejects them in the outer compartment. Once so ejected and today removed from the strong crystal P-type region these are free to travel back on the inner compartment but this time around along a path involving the outer cristae. This is done by simple attraction of opposite charges. When they travel, they meet ATP-Synthase in the valley with the cristae. ATP-Synthase can be a port for proton and h3po4 transport to the inner membrane in the mitochondria. But there is something concerning the amino acid configuration around the head inside the inner membrane. It has a hydrphobic factor. This hydrophobic factor breaks down a pocket of structured water inside the extremely negatively charged inner compartment. This pocket is protonated and positively charged.

This situation represents a wide open electric current. ATP-Synthase draws electrons from your regions surrounding it’s connected hydrophillic components along with the electrons move in to the pocket of protonated water, and H3po3.

The driving reaction is that of an fuel cell. The electrons combine with the protons and oxygen to again create other more biologically important reaction will be the lowering of H3po3 to produce (-)po3 and hydrogen.

It appears to me that electricity is the movement of charged particles as a result of charge separation. Biologically along with chemistry this often involves the movement of molecules which act as charge carrying units. In semi-conductors the charge carrying units will often be protons or charge holes that become the charge carriers. Your fridge and also other household appliances typically utilize electrons since the charge carriers and this may be the one we normally bring. It is only convention that people talk about good conductors as charge carriers, since they’re the ones best to your devices. All matter and energy carries charge, and demonstrates charge separation.

My model for mitochondrial operation is theoretical, but reasonable given new insights from research being conducted by my good friend Gerald Pollack. All the details usually are not fully worked out yet, but conventional theories seem far less adequate. eden energy medicine practitioners is not befitting this type of discourse Sparky, so I will not get too much into specifics. Jerry still hasn’t gotten back to me on this idea yet either.

There is inferential evidence for protein, and so charge gradients inside the cytoplasm. The mechanism because of this is Jerry’s EZ water. It may not only support charge gradients but additionally dictate the spatial organization of cytoplasmic proteins and organelles. The fact that the inner compartment of the mitochondria is extremely negatively charged is an accepted fact of conventional thought which is already extensively recorded and supported.

Sparky, I have never actually physically visited an electron, and that is just not required of me physically before I can say that I understand one?

Plasma gun adds gravitus. If I said hello sprayed electrons onto molecules, that wouldn’t have sounded as good.

ATP-Synthase isn’t a widgety extruder like press, it’s really a plasma gun!

velis et remis

Norman