Category: Electromagnetic Gravitational Field

Colliding protons and electrons and making them fuse, Gravitational energy density, and scale

The Slow Mo Guys: Ridiculous Magnets Colliding at 187,000FPS – The Slow Mo Guys at https://www.youtube.com/watch?v=yHPtuEfMPTc Slow Mo Guys, you can do the same with protons, electrons, positrons, anti-protons, any particle with a permanent magnetic dipole moment. You have to line up the spins properly, and time them using magnetic resonant imaging methods. But it can
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Roger Penrose – “our big bang region”, modeling regions with high concentrations of quark gluon density voxels

Sir Roger Penrose – STORY OF THE UNIVERSE at https://www.youtube.com/watch?v=KNKby1Akrck Roger Penrose, Blackboard and paper drawings are not as flexible as 3D simulations and visualizations. And both human modeling methods are way less than the raw data from sensors and sensor arrays. It is not hard (in a few years) to put radio and optical sensor
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The Action Lab: Superconductors are soft magnets, Webers, Magnetic Flux Quantum, Electrons, Electron Charge

The Action Lab: Does The Weight Increase When You Levitate a Superconductor on a Scale? at https://www.youtube.com/watch?v=uR35VTWmdYg Does the magnetic field transmit force?  Watts*Time = Joules = Volts*Coulombs Newtons*Meters = Joules = Volts*Coulombs Newtons = Joules/Meter = (Volts/Meter)*Coulombs Put the superconductor on a copper plate, and cool the plate with liquid nitrogen to cool the superconductor.
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Strong force, stable magnetic fusion, Mr Fusion, replace SpaceX Booster with it magnetic equivalent.

The Action Lab: What does the Strong Nuclear Force Look Like? at https://www.youtube.com/watch?v=Rx4lNihOT4U The Action Lab, Now take a beam of protons, grab them by their magnetic moment and spin them. Use the Block equations, or make new ones. Take another beam of protons or tritium or any of the “good fusion” candidates, they all
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Aharonov-Bohm, electron interferometry, CMOS detectors and memory devices as electron interferometers and detectors for dynamic gravitational signals

Aharonov-Bohm, electron interferometry, CMOS detectors and memory devices as electron interferometers and detectors for dynamic gravitational signals mod05lec14 – Aharonov-Bohm Effect at https://www.youtube.com/watch?v=NbOegkxWJ3A Madhu Thalakulam, You might enjoy “Interference between two independent electrons: observation of two-particle Aharonov-Bohm interference” by I. Neder, N. Ofek, Y. Chung, M. Heiblum, D. Mahalu, V. Umansky who show there is
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The Action Lab: Energy Density in a vacuum, Temperature in a vacuum in a box

The Action Lab: What Is The Temperature in a Vacuum Chamber? Is it Hot, Cold or Neither? at https://www.youtube.com/watch?v=-hTAr2GkhpM There are three fields inside your box after the air is removed. There is an electromagnetic field in equilibrium with the walls of the box, and with the light and electromagnetic waves in the room. If you
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The Action Lab controlling magnets with magnets at a distance. “magnetic locking”

The Action Lab: Magnetic Locking WITHOUT a Superconductor! at https://www.youtube.com/watch?v=V5FyFvgxUhE Fantastic. Now do some measurements, write some equations and write some software so people can plug in what they have and get estimates of what regions will be stable. Or give specifics of separation distance, mass and force, to calculate what speed to use and what
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Every star contributes to expansion, every black hole region contains many bodies, the big bang was a small and ordinary event

Anton Petrov: Whole Universe May Be Evaporating According To New Study at https://www.youtube.com/watch?v=vEAKbL04bxQ Anton Petrov, I think you ought to focus on the life of any star. The matter concentrates into stars, reaches critical density to ignite nuclear reactions, and then, for the rest of the stars life, it will be radiating neutrinos, photons, electrons, protons
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Strong Nuclear force using magnetic dipole force and energy

The Action Lab: What Does The Strong Nuclear Force Look Like? at https://www.youtube.com/watch?v=Rx4lNihOT4U The simplest easy model for the strong force that I found is to simply calculate the magnetic dipole force between the particles. Electrons protons neutrons each have permanent magnetic dipole moments in units of Joules/Tesla. To get the force in Newtons multiply the
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THz imaging in quantum Hall conductors and superconductors. Gravitational energy density and gradients

Susumu Komiyama, I was looking for your paper, “Electron temperature of hot spots in quantum Hall conductors” and found this THz imaging paper on ResearchGate. I think at zero temperature the magnetic energy density and its gradients are important. “hot spots” are just part of it. I was looking at ways to push the fields
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