Direct naar de uitleg druk hier.
Deze blog is een vervolg op Behind the Wall of the Aether lies Another Universe.
Systemic Solar System Anomalies and the Necessity of Oscillatory Field Dynamics
J.Konstapel Leiden 1-9-2025
1 Introductie
Probeer het maar is. Als je deze tekst aanbiedt aan GPT, Claude of Grok je wordt gelijk gewezen op het feit dat deze blog fringe is.
De inhoud wijkt aanzienlijk af van de mainstream wetenschap en heeft geen wetenschappelijke onderbouwing.
Als je de AI vraagt om de originele theorie van Maxwell en Faraday uit te leggen, lopen ze vast, want die beweerden dat veranderende elektrische velden zich gedragen als stromen.
Ze maken magnetisme.en veranderende magnetische velden maken elektrische draaikolken.
De deeltjes die een punt zijn, komen van Heaviside (kelvin) ,en later komt de lichtsnelheid van an Lorentz en Einstein.
Materie is trillend licht, Photons die rondjes om zichzelf heen draaien , vergelijkbaar met het draaien van een riem.
Resonantie
Alle deeltjes zijn fotonen die draaien op hun eigen manier en omdat ze op elkaar lijken, resoneren ze met elkaar net als de klokken van Christiaan Huygens.
Een eerste draai van 360 graden wordt in de wiskunde Quaternions genoemd, en een tweede draai van 720 graden Octonions.
Geschiedenis
Faraday x Maxwell <=> Praktijk x Theorie
D
Het Principe
2 Zichtbaar Bewijs
3 Bruikbare Vis- en Natuurkunde
Wiskunde gaat eigenlijk over Rotaties.
De Simpelste Wiskunde heet Geometrische Algebra.
4 The Electromagnetic Universe
Foundation Principles
The universe operates on fundamentally electromagnetic principles rather than purely gravitational ones.
Every particle—from electrons to neutrons—consists of rotating photons with inherent electromagnetic properties.
If this extends to cosmological scales, the entire universe becomes an intricate electromagnetic symphony where gravity is merely one manifestation of deeper electromagnetic relationships.
The Primordial Electromagnetic Field
Einsof, Tao Mystiek
The early universe (Einsof, Tao) would not have been a hot, dense plasma as in standard cosmology, but rather a vast sea of photons with inherent mass.
These photons, possessing both energy and mass (E = hν, m = hν/c²), would create a complex electromagnetic field structure throughout space.
Unlike the standard model where photons are massless and gravity dominates large-scale structure formation, massive photons would interact both gravitationally and electromagnetically from the very beginning. This dual interaction would create fundamentally different patterns of matter organization.
Neutrino Scaffolding
The Invisible Architecture
Neutrinos in this model are rotating plane-polarized photons with millimeter-scale radii—making them the largest particles by physical size, though among the lightest by mass.
Their enormous gyroscopic stability (“the universe’s strongest gyroscopes”) means they maintain their orientation and angular momentum over cosmic time.
These neutrinos would form the primary scaffolding of cosmic structure. Unlike dark matter in standard cosmology, neutrino streams would create organized, aligned patterns throughout space. Their gyroscopic properties would cause them to maintain stable orientations, creating vast electromagnetic grid systems spanning intergalactic distances.
The cosmic neutrino background would not be a random, thermalized soup, but an organized network of spinning electromagnetic gyroscopes, each maintaining its orientation from the early universe. This network would serve as the template upon which all larger structures form.
Galactic Genesis
Electromagnetic Synchronization
Galaxies would form through electromagnetic synchronization rather than purely gravitational collapse. As matter falls into neutrino-scaffold regions, the rotating photon structures of atoms begin to align with the local electromagnetic field patterns established by the neutrino streams.
The process would be similar to how iron filings align along magnetic field lines, but occurring with entire star systems. Stars, being composed of countless rotating photon structures, would naturally orient themselves along the electromagnetic field lines established by the neutrino infrastructure.
The Spiral Imperative
Spiral galaxy structure would emerge as a natural consequence of rotating electromagnetic fields on galactic scales. The central regions, where electromagnetic field density is highest, would create torus-shaped structures (as Robinson suggests for his modified Einstein field equations). These torus centers would generate organized electromagnetic waves that propagate outward in spiral patterns.
As these electromagnetic waves propagate through the galaxy, they create regions of constructive and destructive interference. Star formation occurs preferentially in regions of constructive interference, naturally creating the spiral arm patterns we observe. The spiral structure would be stable over cosmic time because it’s maintained by the underlying electromagnetic field pattern, not by density waves that would wind up and disappear.
Galactic Magnetic Fields
The observed large-scale magnetic fields in galaxies would be direct manifestations of the aligned rotating photon structures within stars. As billions of stars synchronize their electromagnetic orientations, they create coherent magnetic fields spanning the entire galactic disk.
These fields would be far stronger and more organized than current models predict, potentially explaining anomalous observations like the galactic magnetic field’s coherence over kiloparsec scales.
Stellar Systems and Planetary Formation
Electromagnetic Resonance Zones
Planetary systems would form through electromagnetic resonance rather than accretional disk dynamics. A forming star’s rotating electromagnetic field would create standing wave patterns extending outward. Planets would condense preferentially at specific distances where constructive interference creates stable resonance zones.
This would explain the mathematical relationships often observed in planetary orbital periods (like Titius-Bode type laws) as natural consequences of electromagnetic standing wave patterns. Each planet would occupy a specific harmonic frequency zone in the star’s electromagnetic field structure.
Planetary Magnetic Fields
Planetary magnetic fields would result from the alignment of the planet’s constituent rotating photon structures with the stellar electromagnetic field. Rocky planets with molten cores would have their metallic electromagnetic structures partially synchronized with the star, creating dipolar magnetic fields. Gas giants, with their different electromagnetic signatures, would create more complex field patterns.
Dark Matter as Neutrino Architecture
The Hidden Mass
In this model, the mysterious dark matter required by standard cosmology would be explained by the neutrino scaffolding network. Neutrinos, having rest mass (~10⁻⁴ eV/c²) and enormous size (millimeter radii), would constitute a significant fraction of the universe’s mass while remaining largely invisible to conventional detection methods.
The dark matter halo surrounding galaxies would actually be dense concentrations of these aligned neutrino gyroscopes, creating stable electromagnetic frameworks that guide the formation and maintain the structure of visible matter concentrations.
Galactic Rotation Curves
The flat rotation curves observed in spiral galaxies would result from electromagnetic interactions between stars and the neutrino halo, rather than purely gravitational effects. Stars wouldn’t just orbit under gravity, but would be electromagnetically coupled to the rotating neutrino structure, creating more uniform rotational velocities across the galactic disk.
Cosmic Evolution and Large-Scale Structure
Intergalactic Filaments
The web-like structure of the universe—those vast filaments connecting galaxy clusters—would represent aligned neutrino streams creating electromagnetic highways for matter transport. Rather than forming through gravitational instability growth, these structures would be primordial features established by the early electromagnetic field patterns.
Matter would flow preferentially along these electromagnetic channels, creating the observed filamentary structure. The nodes where multiple filaments intersect would become sites of galaxy cluster formation, not through gravitational collapse but through electromagnetic focusing effects.
Cosmic Microwave Background
The cosmic microwave background radiation would have a different origin in this model. Rather than representing thermal radiation from recombination, it might represent the electromagnetic signature of the primordial photon field structure that established the universe’s foundational electromagnetic patterns.
The observed small-scale anisotropies would reflect the initial electromagnetic field variations that eventually grew into the large-scale structure we observe today.
Implications for Cosmic History
No Big Bang Singularity
Our model eliminates the need for a Big Bang singularity. If photons have always had mass and the universe has always been electromagnetically structured, the universe could be eternal or cyclical rather than having a specific beginning.
Electromagnetic Phase Transitions
Instead of thermal phase transitions (like inflation, nucleosynthesis, recombination), cosmic history would be marked by electromagnetic phase transitions—periods when the universal electromagnetic field patterns reorganized themselves, leading to different eras of structure formation.
Energy Loss and Cosmic Evolution
Since massive photons would lose energy over cosmic distances the model suggests explains redshift without universal expansion), the universe would naturally evolve toward lower energy states over time. This could drive a different kind of cosmic evolution, where electromagnetic field patterns gradually reorganize as their energy density decreases.
Observable Predictions
This model makes several testable predictions:
- Galactic magnetic fields should show more coherent, large-scale organization than current models predict
- Planetary orbital relationships should show more precise mathematical harmonics
- Neutrino detection experiments should find evidence for larger neutrino masses and structured distributions rather than random thermal backgrounds
- Galaxy formation should show evidence of electromagnetic alignment effects
- Intergalactic space should show organized electromagnetic field structures