QUANTUM ENTANGLEMENT & SPECIAL RELATIVITY CONNECTED WITH EVERYTHING FROM NEUTRONS, DARK MATTER & OCEAN TIDES TO MATRIX MATHS, DARK ENERGY & HIGHER DIMENSIONS: WITH BONUS SECTION – HOW COULD GRAVITY EMERGE FROM MATHEMATICS? (SUBTITLED - ANALOGY OF QUANTUM SPIN TO MATRIX ARRAY WITH ELECTROMAGNETIC AND GRAVITATIONAL WAVES PRODUCED FROM PURE MATHEMATICS)
Abstract of Original - A few years ago, I first posted these ideas of mine online as preprints and have been developing the details since then. The earliest record I can find about writing on Mobius strips and matrix mathematics in relation to higher dimensions is an article in May 2018 at http://vi...
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| Format: | Report |
| Language: | English |
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Zenodo
2019
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| Online Access: | https://dx.doi.org/10.5281/zenodo.3334628 https://zenodo.org/record/3334628 |
| Summary: | Abstract of Original - A few years ago, I first posted these ideas of mine online as preprints and have been developing the details since then. The earliest record I can find about writing on Mobius strips and matrix mathematics in relation to higher dimensions is an article in May 2018 at http://vixra.org/pdf/1805.0073v3.pdf. A couple of days ago, I started thinking deeply about the role of neutrons in atoms. Then yesterday, I saw Karl Kruszelnicki, who's known as Dr. Karl, on TV talking about higher dimensions and neutron decay. This reminded me of my earlier writings - and I put together the present article combining neutrons with Mobius strips, quantum spin, Earth’s tides, M-sigma, Saturn’s moon Enceladus, geometry, matrix mathematics, dark matter, dark energy, and higher dimensions. It also seemed necessary to add thoughts about binary digits, topology, supersymmetry, and Wick rotation’s proposed function in Special Relativity and quantum entanglement. Abstract of bonus section - This bonus section was inspired by the astronomy/astrophysics course “Greatest Unsolved Mysteries of the Universe”. It was prepared by ANU (the Australian National University), was put on the Internet by edX, and the two presenters in the course’s videos are Dr. Paul Francis and Brian Schmidt (yes, the co-winner of the 2011 Nobel Prize for Physics himself). In the video “V5.8 : 21 centimetre radiation and the first stars”, Brian said “(To get emission from the hydrogen atom) we're going to have to resort to a little trick of quantum mechanics that is provided for the hydrogen atom, which is that the proton and electron within quantum mechanics have a spin. It's analogous to a top spinning. It turns out that the hydrogen atom has a different energy if those spins are in opposite directions. It turns out it actually has a lower energy and so you can have an energy transition when that flip occurs and a photon comes out.” Then Paul said, “It's a bit like having two bar magnets. If you have them with north pole to north pole, or north pole to south pole, you'll feel a different amount of force between them; a different energy between these two things. When these things are spinning the same way or the opposite way there's a little tiny energy difference between them.” The following explains analogy of quantum spin to maths’ matrix and how, using that analogy, the statements by Brian and Paul can be converted into a mathematical origin of electromagnetism and gravitation. : Does the quote "There but for the grace of God go I" cause you to think of Leonardo da Vinci? The quote is attributed to English preacher John Bradford (1510-1555), and was prompted when he saw a group of criminals being led to their executions. Of Leonardo, Wikipedia reports, "He made substantial discoveries in anatomy, civil engineering, geology, optics, and hydrodynamics, but he did not publish his findings and they had no direct influence on subsequent science." I've never been able (after years of trying) to interest a science journal in anything I've written. So, like Leonardo, I "did not publish (my) findings and they (may have) no direct influence on subsequent science." Unlike him, I'm not restricted to print but can publish my crazy, far-out ideas on the Internet. So my mind says "There but for the grace of the Internet go I" when I think of Leonardo da Vinci. Some scientists, even including ones with a Nobel, believe articles aren't worth reading unless they've appeared in a science journal and are written the way those scientists expect. But some of you are open to the unexpected - and I'll trust you, as well as scientists who may not be born yet, to read my ideas and decide if they really are crazy, or merely "outside the scope" (a phrase commonly used by journals) of the early 21st century. |
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