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What happens when we lose electron spin?

Discussion in 'Mitochondrial Rx' started by Jack Kruse, Oct 6, 2015.

  1. Jack Kruse

    Jack Kruse Administrator

    Is this a mitochondrial phenomena.

    When an electron loses its spin it also loses its magnetism. When this occurs it seem to disappear in a magnetic field. This is a big issue in the sun and might be a bigger deal in mitochondria.

    Today, all electronic devices use transistors to work. Today we have smaller newer versions that use both electric and magnetic forces to do the things they do. They are found in computers, TV’s and your cell phone. In these modern devices, the magnetically sensitive transistor is also known as the spin transistor or spintronic transistor. This was named for spintronics, which is a technology which this development spawned in 1990. Spintronics emerged from discoveries in the 1980’s concerning spin-dependent electron transport phenomena in solid-state devices. Every electron in every atom has four quantum numbers that organizes the periodic table of elements. Spin number is one of those numbers.

    The spins of electrons are not only manipulated by magnetic fields, but also by electrical fields. Both exist in mitochondria and both are powerful. They can be used to collect and store information from electrons or the photons they carry. Mitochondria are masters at controlling the spin of electrons to do the amazing things life can do. Few people understand why this is true because they do not understand quantum spin or radical chemistry.

    Most of the time in an atom electrons are paired. One spins up an the other spins down. This is called their singlet state. When electrons are in their "singlet state" in atoms their electron spins are paired and they cancel each other out. This is how the Pauli exclusion principle works. This fundamental quantum rule dictates how the periodic table is set up by stating that two electrons can not exist in the same quantum state. But what happens when you create chemicals called free radicals that have electrons that spin in the same direction? All mitochondria create free radicals that have electrons that spin in the same directions. Free radicals have unusual spin characteristics.

    Did you know on Earth, its magnetic field favors triplet state oxygen radicals and not singlet state?

    So the question you should have now is what happens when these two same spinning electrons are excited by electric fields or magnetic fields?

    This becomes the incredibly important issue in chloroplasts and mitochondria. All life on this planet uses one or the other to make energy from the sun using electrons and protons. It is why all cytochromes use Iron- sulfur (Fe-S) redox complexes where quantum mechanisms dominate on electron spins.

    The mitochondrial complexes are like electromagnetic compasses, that tell the mitochondria what the environment is calling for. In this sense, they are quantum heat pumps because they all generate some amount of infrared light from the amount of UV light frequencies that are fed into it. The amount of UV light fed into it is also a factor in how much infrared light is released. The free radical chemical signal a mitochondria makes determines how much light or energy can and should be released to the MINOS water layer around the mitochondria to drive signaling and physiologic functioning. This is a critical step in mito-nuclear coaptation. Since water normally has a high dielectric point this means that the charges can affect its electric abilities. The dielectric constant measures how effectively water can shield the negative and positive charges from one another and hence reduces the force between them. This is why water fundamentally breaks symmetry in nature because it is very effective in separating charges and forces. I would remind you that heat shrinks or condenses water when it interacts with infra-red light.
  2. Jack Kruse

    Jack Kruse Administrator

    In this way, when you study the water molecules subsequent motions you can deduce something about the particles that hit water as they exit the cytochromes. Water is H20 and has oxygen within it. Water, actually the oxygen in it with its added electrons from mitochondria, is how a cell deciphers environmental signals. Water is not a homogenous fluid because of oxygen. Water can act like an ionic plasma that can imprint information and energies of things that interact with it when it contains more triplet oxygen. This is how a mitochondria works at its smallest scale. The light fed into a mitochondria has the ability to affect time. Evolution deals with time on several scales. Evolution happens by natural genetic engineering of light and water, and not by random mutation and natural selection.

    It turns out oxygen in water and in cells are linked by spin or de coupled by a lack of spin.

    Velocity with light in a vacuum is fixed. Velocity in matter is not fixed. Within mitochondria, velocity depends on measuring BOTH time and distance on the inner mitochondrial membrane where the cytochromes exist. In fact, two measurements must be made here. One is the distance measurement in Angstroms between cytochromes and the Q cycle built into them. This velocity measurement concerns itself with how fast electrons can move from NAD+ to oxygen. The second Both of these measurements are fundamental to evolutionary progress or extinction.

    In the SCN and peripheral circadian clocks we are using atomic optical light clocks, with negligible margins of error. This misses the point of how time in circadian biology is actually measured. Even if the clocks have zero margin of error themselves, the clocks are being used to measure a distance gap between the clocks. The distance gap has the margin of error exclusive of any margin of error in the timepieces. Light and or electrons travel between the clocks and that velocity is subject to their masses.

    The clocks can be altered by the light in the AM that fuels the regeneration of rods and the eye clock in daylight or by excessive blue light at night destroying cones or eye camera and the eye clock. As the destruction of the clocks occurs it increases the size of the respiratory proteins. This also increases the distance between the mitochondria and the nucleus.
    Mystic Rose60 and lilly antic like this.
  3. Jack Kruse

    Jack Kruse Administrator

    If you block eye UV you basically ruin all GPS abilities in the the retina/brain.
    UV light also creates triplet oxygen..............by delivering photonics power to cytochrome 1.
  4. Jack Kruse

    Jack Kruse Administrator

    Here is the irony, 99.9% of doctors think that the cornea and lens block UV light. It is ridiculous idea when you consider data from the 1960's that show UV light gets into the retina. And in 1996 we find this: The retinal pigment epithelium (RPE) contains an abundant opsin that is distinct from rhodopsin and cone visual pigments and is able to bind the retinaldehyde chromophore. The putative retinal G protein-coupled receptor (RGR) was isolated in digitonin solution from bovine RPE microsomes and copurified consistently with a minor 34-kDa protein. The absorption spectrum of RGR revealed endogenous pH-sensitive absorbance in the blue and near-ultraviolet regions of light. Membrane-bound RGR was incubated with exogenously added all-trans-retinal and formed two long-lived pH-dependent photopigments with absorption maxima of 469 +/- 2.4 and 370 +/- 7.3 nm. The effects of hydrogen ion concentration suggest that the blue and near-UV photopigments are tautomeric forms of RGR, in which an all-trans-retinal Schiff base is protonated or unprotonated, respectively. The RPE pigment was also demonstrable by its reactivity to hydroxylamine in the dark. The retinaldehyde-RGR conjugate at neutral pH favors the "near-UV pigment" and is a novel light-absorbing opsin in the vertebrate eye. If we block blues and purples why would we have melanopisin in our eyes? I smell bullshit. Have a look at the paper "Spectral Transmission of the Eye to Ultraviolet Radiations by Everett Kinsey. It is pure bullshit. But that BS lead to all safety glasses, lenses, and eye glasses blocking UV parts of the spectrum. Not good at all. If you wear sunglasses by term insurance and get a long term policy..........you likely will wind up with a low dopamine style disease like obesity or sleep apnea.
    Cpt.Tired, Mystic Rose60 and Scompy like this.
  5. Jack Kruse

    Jack Kruse Administrator

    The hydrogen bonding network in water is a quantum measuring device because its motions and action provides a record or a memory of the state of entangled pair of electrons in free radicals made in mitochondria. This is why mitochondria use free radicals to signal. The measurement made determines the reality we get. Singlet free radicals make life filled with disease and triplet free radicals build a life of optimal wellness. Mitochondria also release monochromatic infrared light because you can only entangle electrons and protons with light at one specific frequency. Live in the morning sunlight and harvest it. Sleep in the dark. Heal in the red. Repeat.

    Red light slows time, hence why our mitochondria emit it. Cold slows time, which is why ETC speeds up in cold as cytochromes and the MINOS are condensed. Blue light speeds up time and your life is lived like a blue straggler star, because ETC speeds slow, and respiratory proteins are stretched so far they can't make triplet free radicals. Quick and bright is your life. Over supplemented fro pills or foods comes from being undereducated about light and not food. All food is broken down to electrons. All electrons have spin.
    So instead of "You are what you eat", it's more like, "You are what you absorb, repel and emit.

    Light also has weight. As it falls to anything with gravity it gets heavier because light has momentum. So AM UV light tends to fall to things with mass like mitochondria. What is in mitochondria that UV light is drawn too? NADH. Light moving away from mass allows light to "get lighter" because it loses its purple power and shifts to red. NAD+ does not draw purple light to it. Gravitational lensing is a redshift effect in stars and in our mitochondria.

    The double slit experiment in QED has been done thousands of times proving quantum entanglement only works if light is monochromatic. This is why your skin has to begin the filtering process of sunlight for a long time in our tissues before our mitochondria can process the electromagnetic wave of light. You should be reminded that water in our blood plasma absorbs electromagnetic radiation best at 270 nm directly in the ultraviolet range. When sunlight hits our skin blood flow is increased to the skin surface. UV/IR light can extend the EZ in blood plasma because blood is 93% water. Everything is coupled by quantum design when you understand nature's plan.
  6. Jack Kruse

    Jack Kruse Administrator

    How do we lose electron spin? When we are unconnected to the Earth's magnetic field and when we do not see her full solar spectrum.

    Both of these are broken in our modern world many times over.
    Mystic Rose60, lilly antic and Scompy like this.
  7. Joe Gavin

    Joe Gavin Face Everything And Rise

    Cells have two paths at their disposal: survival or reproduction. The signal corresponds to the path. The organism exists accordingly.
  8. Jack Kruse

    Jack Kruse Administrator

    Mitochondria use free radicals to code information and energy thermodynamically using the same quantum effects. Mitochondrial cytochrome protein clusters ‘shoots’ the radicals into water of the MINOS and to oxygen via ETC to send to all parts of cell increasing its coherence as time develops. This process is most effective when we sleep. Sleep is when biology becomes coherent. During wakefulness life can not entangle electrons and protons. The coherence of water is maintained by using its density and its icosahedron molecular form. This is discuss in Martin Chaplin’s research I have mention before in the quantum biology series. Liquid water is not a bit player in the theatre of life, it’s the headline act for mitochondria. The shape of the water molecule clusters (hexagonal) in cell water determines is molecular density and its ability to be coherent for energy transfers. Size and shape of things determine its thermodynamic profiles. what other two cells in life are hexagonal that deal with life? The RPE of the retina and chloroplasts.

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