Electromagnetism in the Marias Theory
Electromagnetism, as interpreted by the Marias Theory, is not a fundamental force in itself but a manifestation of the oscillatory interaction of photonic vibrations. It emerges naturally from the coherent oscillations and phase relations of light waves that constitute all matter and energy.
In classical physics, electromagnetism unifies electricity and magnetism into a single theory governed by Maxwell's equations. Fields are described as vector quantities that extend through space, and charged particles interact through these fields.
In quantum electrodynamics (QED), electromagnetic interactions are mediated by the exchange of virtual photons. Photons are treated as elementary particles with zero rest mass and spin-1 characteristics. However, these interpretations rely on abstract field constructs and do not explain the origin of mass, force, or particle structure at the deepest level.
The Marias Interpretation
According to the Marias Theory, electromagnetism arises from the phase-coherent interference patterns of localized light vibrations. Every particle – such as an electron, proton, or photon – is composed of standing wave structures of light. These structures possess intrinsic spin oscillations that generate magnetic dipole moments.
When two such structures approach each other, their oscillatory fields interact. If their spin phases are synchronized, attraction occurs. If they are in opposition, repulsion follows. These interactions are interpreted macroscopically as electromagnetic forces.
Electric charge in the Marias Theory is not a fundamental property but a manifestation of the asymmetry in the vibrational pattern of the photonic structure. Positive and negative charges correspond to specific oscillation geometries and phase orientations.
Magnetic fields, instead of being abstract vectors, are the real spatial patterns of spin-induced oscillations in surrounding space. Moving charges induce directional oscillations in the medium of light vibrations, which are then interpreted as magnetic fields.
Implications
- Electromagnetism is unified with gravity, nuclear forces, and all interactions as different manifestations of photonic vibration interference.
- Fields do not exist as separate entities but as emergent effects of oscillatory coherence.
- Electromagnetic waves are coherent light structures with specific polarization, phase, and frequency properties.
Thus, electromagnetism is no longer an abstract concept but a real, physical interaction between oscillating light structures. These ideas tie closely to the definitions of mass, light, and polarization in the Marias Theory.
Mathematical Overview
The interaction force between two photonic structures is governed by the oscillatory magnetic pole interaction formula defined in the Marias Theory:
F(t) = (Bp1 × Bp2 × cos(ω1 × t + φ1) × cos(ω2 × t + φ2)) / d²
This formula expresses how electromagnetic force results from synchronized or opposing oscillations of the magnetic poles within photonic structures.