Corpus evidence — top 10 passages

Most-relevant passages from the entire indexed corpus (67,286 paragraph chunks across YouTube transcripts, PubMed, arXiv, archive.org, Stanford Encyclopedia of Philosophy, OpenAlex, and more) ranked by semantic similarity (bge-small-en-v1.5).

1. 01 · _intake0.981

   > from plus two to plus three what do you need to know you don't need to know a lot of fancy signs oxygen delivers to mitochondria when it's plus three and the reason why is what we talked to Andrew before about oxygen is Paramount what does that mean it's drawn to things with a magnetic field what is the atpase it's a faraday current electron Train Transport ethel-headed atpa spins because protons go in it and red light spins it okay creates a magnetic field now when I first

   _intake/claims-allbranch/curated-low/mitochondria/010-from-plus-two-to-plus-three-what-do-you-need-to-know-you-don.md

2. 02 · _intake0.803

   > oxidation state of iron. That means it'll keep it in the plus three state too long. So you never get to the plus two state. And it turns out plus two is what you need to move oxygen around and

   _intake/claims-allbranch/curated-low/oxygen/007-oxidation-state-of-iron.md

3. 03 · _intake0.798

   Magnetism is everywhere if you look for it. In biology, few look for magnetism and that is why they do not understand it. Most biologists know oxygen is critical for life, and since it is paramagnetic and drawn to magnetic fields you’d think this would make them understand why oxygen is drawn to the terminus of the respiratory proteins where the ATPase spins at a fantastic rate to generate a magnetic field. That one observation should change all of what we believe, but so far it has not made its proper mark. Any place life has mitochondria we are able to measure huge magnetic fields with SQUID…

   _intake/kruse-blog-corpus/articles/qt6-how-do-we-store-information-quanta.md

4. 04 · yt0.796

   Oxygen is drawn to magnetic fields. So if you want to know why I told you a little while ago that uh breathing is quantized, you know that the FO head spins when you're using TCA cycle. That's 9,000 protons through the FO head. the FO head from Faraday's laws of electromagnetism that he found in 1851. The electron chain's got a current that goes through it that's got a 30 million volt charge. That's Nick Lane's work. This FO head spins 9,000 times a second. That's how you make ATP. Turns out that's discussed with TCA cycle dynamics. you know as a biochemist that's not true in glycolysis not tr…

   yt/67sLlXeMg2I-regenerative-energy-the-light-inside-you-jack-kruse-221/transcript.txt

5. 05 · _intake0.796

   Magnetism is everywhere around us if you look for it. In biology, few look for magnetism and that is why they do not understand it. Most biologists know oxygen is critical for life, and since it is paramagnetic and drawn to magnetic fields you’d think this would make them understand why oxygen is drawn to the terminus of the respiratory proteins where the ATPase spins at a fantastic rate to generate a magnetic field. That one observation should change all of what we believe, but so far it has not made its proper mark. Any place life has mitochondria we are able to measure huge magnetic fields …

   _intake/kruse-blog-corpus/articles/monopoles-make-time.md

6. 06 · yt0.794

   Turns out, when you look back at life, the first two domains, they were obligate anaerobes, they were functioning in a completely different environment. So, between those two things, the story about oxygen becomes really important. And when you point out to people that the TCA cycle basically is a cycle that's based around oxygen levels are really high, you start to ask yourself the question, well, what happens when oxygen for some reason is not very high uh around us? And can it be turned off some way? And this is where the rubber meets the road. Turns out, when you look at oxygen carrying ca…

   yt/wwNutyiyQ2I-interview-with-dr-jack-kruse-04-08-2025/transcript.txt

7. 07 · _intake0.772

   Electric monopoles, on the other hand, exist in abundance. Examples are an electron, a proton, or any other charged particles. This also results in another interesting phenomena. Faraday’s law says that a changing magnetic field produces an electric field. If charges are free to move, the electric field will cause an EMF and a current. That EMF in biology is the DC current in the brain and heart where mitochondria are most densely packed. A traditional recording head for magnetic data consists of a coil of wires attached to some current-sensitive device. A ferromagnetic material passes under t…

   _intake/kruse-blog-corpus/articles/tensegrity-10.md

8. 08 · yt0.769

   Because where does that cytochrome Where is it found? This is important for you to understand. It's found right before the ATPase. So, you We're creating a huge amount of electrical resistance at that level, so that that energy then can be distributed to other places to cause other innovations in the cell. And doesn't that make sense when you think about the story that Darwin could never figure out? Why all of a sudden did we get 32 phyla seems like overnight? Well, because guess what? We figured out we needed to use photo-bioelectric resistance to capture the light to use it to do other thing…

   yt/wwNutyiyQ2I-interview-with-dr-jack-kruse-04-08-2025/transcript.txt

9. 09 · _intake0.766

   As it increases, oxygen becomes more magnetically susceptible to a mitochondria’s magnetic effect because of the Fo spinning head and the recycling of H+ to NADH. This is why oxygen is the output chemical coupled to electron flow, because it is the only gas on the periodic table that is paramagnetic.

   _intake/kruse-blog-corpus/articles/tensegrity-5-magnetic-sense.md

10. 10 · _intake0.763

    I have a sense when 5 G is released this blog will be the most important one people will search. Why? In it has most of the key mito-hacks that one will need to consider to offset electromagnetic diseases linked to 5G exposure. Blood is magnetohydrodynamic fluid. What does this mean to the ‘mitochondria’?? *** Oxygenated ***blood is repelled by the magnets. This means oxygenated blood is diamagnetic within the hemoglobin molecule.

    _intake/kruse-blog-corpus/articles/cpc-15-blood-is-a-magnetohydrodynamic-fluid-that-links-the-sun-to-your-mitochondria.md