Electrons as a Pure Wave Phenomenon in An Elastic Aether: The Mechanical Universe: Lecture 8

Chantal Explains how the behavior of electrons can be explained by her model of an elastic aether. She explains spin, charge, the aharonov-bohm effect, waves, phase. Simulations: https://jsfiddle.net/u/Chenopdodium/c... https://jsfiddle.net/u/Chenopdodium/c... https://jsfiddle.net/u/Chenopdodium/c... https://jsfiddle.net/u/Chenopdodium/c... https://jsfiddle.net/u/Chenopdodium/c... https://jsfiddle.net/Chenopdodium/45p... https://jsfiddle.net/Chenopdodium/g1w... Inductica’s video on the Aharonov-Bohm Effect    • A Fluid Hypothesis of Electromagnetism   Other pages, videos, literature: https://www.psi.ch/en/lmb/low-energy-... Milo Wolff: https://rwgrayprojects.com/WSM/Spheri... https://www.spaceandmotion.com/Wolff-... Gabriel La Freniere: http://www.rhythmodynamics.com/Gabrie... Jeff Yee:    / energywavetheory   https://energywavetheory.com/subatomi... John Macken: https://www.researchgate.net/profile/... John Williamson:    • A new relativistic quantum mechanics   https://quicycle.com/    • What the Universe is Made of - Dr. John G....   (DemystifySci)    • Williamson & Van der Mark electron model  ...   https://quicycle.com/wp-content/uploa... https://quicycle.com/video/qc0084a-dr...    • Williamson & Van der Mark electron model  ...   (Huygens Optics) Qiu-Hong Hu: https://arxiv.org/pdf/physics/0512265 John Duffield: https://physicsdetective.com/the-elec... Aharonov Bohm: https://physicstoday.aip.org/features... https://elastic-universe.org/    / @redpill6313   The Electron as a Distributed Wave – Spin, Charge, and the Aharonov–Bohm Effect What Is an Electron? Waves, Phase, and the Aharonov–Bohm Effect Re-thinking the Electron: A Wave-Based View of Spin and the Aharonov–Bohm Effect What could an electron actually be, if space is a real elastic continuum and everything is a wave? We start from an observation that is often overlooked. In chemistry and biochemistry, electrons are often already treated as delocalized wave structures, not point particles. Orbital shapes, charge distributions, reactivity, and even molecular color only make sense in a wave picture. But this immediately raises a deeper problem. If electrons are waves, why do we always detect them as whole objects? How can charge and spin pass through both slits in a double-slit experiment? These questions rule out many potential models. Anything that is too localized struggles with interference, diffraction, and even basic chemical behavior. We then explore wave-based electron ideas and ask: How can a wave produce spin one-half and a 720-degree repeat? Why do simple circular or standing waves fail? What kind of motion allows spin and magnetism to appear together? This leads naturally to the Aharonov–Bohm effect and another puzzle: If the magnetic field is zero, what is the electron actually interacting with? Which phase of the electron is being shifted? We examine whether the magnetic vector potential could be related to a circulating phase structure in the medium itself, and why phase closure around a loop may explain flux quantization. Finally, we step back and ask a central question of the episode: What if the particle aspect of the electron is not fundamental, but a result of how we detect and interact with a distributed wave?   / inductica   https://x.com/inductica   / inductica   Inductica.org