Charge conservation is not like energy conservation ideas found in the laws of thermodynamics. Energy cannot be created or destroyed. Neither can charges. But charge confirmation does not mean that individual positive and negative charges cannot be created or destroyed. Why? Electric charge is ONLY carried by subatomic particles such as electrons and protons. Charged particles that carry electrical information and energy can be created and destroyed in elementary particle reactions. CERN does this every day. So does the sun. It turns out varying redox potential allows for the alteration of electrons and protons inside of mitochondria and many other organelles in cells. That electrical variation creates tipping points in cells.
Do you understand the Grotthuss mechanism as it is used in mitochondria? It allows hydrogen protons in water to get very close together too. For proton tunneling to occur, protons must first get real close in the matrix. This mechanism works by the like-like attraction spoken about by Feynman in his lectures at Cal-Tech and revisited in the book "The Fourth Phase of Water". The video above shows this.
If you place a small negative charge next to a positive charge you begin to see how protons can come together to tunnel. In biology we don’t need protons to fuse to make full-spectrum light, we just need them to come closer together so that proton tunneling can happen and release some of its energy from its kinetic energy stores. Kinetic energy is the energy of motion.

More relevant to biochemistry is the “potential energy” due to the position of atoms in a semiconductive lattice when placed in an electric or magnetic field, such as solvated ions, H+, or atoms transferring charge when forming compounds or molecules. Another important form of potential energy is that found in a coiled spring like a helix. Helixes behave naturally as tensegrity structures. They naturally stabilize themselves through a balance between the forces of attraction (tension) and repulsion (compression). These forces are mediated by the charged electrons and protons and this allows all helical structures to flow charged subatomic particles bidirectionally. Why is this important? In space and in mitochondria, ionized plasma has bidirectional flow. Yet, electric currents inside the ionosphere are unidirectional. Why would most of the important chemicals in life be helical? Bonded atoms exhibit strikingly similar behavior (called vibrational motions) to the action of springs. Potential energy is often thought of as “stored” kinetic energy. This means that as things (cells or mitochondria) can remain stationary in a potential field such as an electric or magnetic field.
In sleep, we lose our DC electric charge. Why?
This happens in mitochondria when we sleep. It does not happen when we are awake. Mitochondria and the sun can hold photons, electrons, and protons stable in place by controlling electrical and magnetic forces. When these forces change or oscillate, potential energy is converted to kinetic form of energy. Information seems to be recycled at this time simultaneously. In fact, sleep's main purpose might be to trim information to suit the laws of charge conservation and thermodynamics. Wheeler and Shannon's work on information theory and entropy are key to this understanding.
Scientists' current knowledge believes/thinks this process only happens in the sun under the force of gravity. I don’t believe this, because I don’t think gravity is the major force in Nature controlling and directing this process. I think it is the electromagnetic force that matters most in this transition in the sun and in mitochondria. The reason I believe this is that protons carry a positive charge. All charged particles are controlled by electromagnetic force with infinite range and power. That means the electromagnetic force controls proton action in mitochondria and is likely tied to its ability to proton tunnel. All enzymes have been found to use proton tunneling using the kinetic isotope effect to become biologic catalysts.
Watch the video above again now.
How you ask a question in science determines if the experiment is right or wrong. We are missing this today in medicine; what we believe today is based upon experiments guys like Feynman asked decades ago, but even he knew today’s laws are subject to better ideas yet to come. That time has come in biology. Instead of narrowing our focus to the science, we believe today, we should use it to broaden the part of our mind we know we don’t connect with. In this way, instead of denying things that don’t conform to our beliefs, we can begin to discover things to do not fit our current paradigm or beliefs and this is, in my opinion, the best diving board for scientific discovery.

In mitochondria, we have massive electric and magnetic fields that control not only electrons but protons because both are charged particles. The isolated proton, a hydrogen nucleus, is not currently believed by physicists to transmute to a neutron outside of the sun’s furnace. Current beliefs don’t equate to natural truths. Why do I say this? No one has done the experiment yet to see if mitochondria are incapable of it. The mitochondria matrix is loaded with other things that alter the viscosity of the medium that which the H+ is exposed. When you change the viscosity inside the matrix what are you really doing? You are effectively altering the dielectric constant of the mitochondrial matrix.
What force controls the dielectric values of chemicals? The electromagnetic force does. When you change the dielectric constant of the medium the protons are existing in, strange things happen to them. Those strange things are quantum mechanical tunneling inside living things. These things are anathema to biology but very expected by physicists. Things that you would not expect to happen in the vacuum of a physics experiment all of a sudden manifest.
When light is moving, just changing the electromagnetic field in space won’t bend light at all. Physics has proved this; a constant electric or magnetic field won't change its behavior at all. The reason is tied to Maxwell’s classical equations on electromagnetic waves. It’s like rising the water level and expecting the waves on the surface to deflect.
But here is where things get interesting for biology: changing the viscosity of the liquid at a certain interval will deflect the wave on the surface. Can a mitochondrion change its viscosity by altering the chemistry inside its matrix? Yes, they can.
Hydrogen bonding networks are very dynamic. So dynamic that we cannot perceive how fast they adapt. This should get you thinking about Feynman’s video above I linked too. The fast adaptive behavior of these H+ networks in water, alone determines the dielectric constant of the medium they are within. Seasonal weather variations due to the sun drive these processes. Normal bulk water has a high dielectric value. Low pH aqueous environments (inflammation) have excessive protons and have a lowered dielectric value.

Alkaline pH also changes the dielectric constant. The other chemicals in the matrix, like exotic atoms, can alter the dielectric values in the mitochondrial matrix because they change the overall charge inside the matrix. When we alter the dielectric value guess what interaction changes the most? Any change in a dielectric value directly alters the electromagnetic force generation capable between things in the water. This changes the viscoelastic tensions in mitochondria.

This means the adaptive changes of the dielectric constant in the matrix can directly affect the ability to tunnel protons or electrons well. When you have this ability to control these things you have the ability to control how biochemistry can work at its basic level. Remember, all enzymatic catalysis is tied to proton tunneling too. The more viscous something is, the more energy needs to be added to this medium to get a quantum tunneling effect to overcome the energy barrier. If you can’t overcome this change you lose the ability to tunnel and life become less able to do the things we know it can do. We call this loss "a disease" in modern medicine. This implies all diseases are tied to some charge changes in the mitochondrial matrix ability.
Steve Zeedyk
2022-04-16 02:09:53 +0000 UTCKevin
2022-04-09 16:10:34 +0000 UTCDr. Jack Kruse
2022-04-09 11:28:34 +0000 UTC