π What is the Unified Force?
In the Marias Theory, all known forces in the universe β gravitational, electromagnetic, strong nuclear, and weak nuclear β are manifestations of a single fundamental oscillatory interaction. Rather than separate entities, these forces are different expressions of phase interactions between light-based structures.
𧲠Magnetic Oscillations and Spin
Every particle, including photons, electrons, and protons, exhibits a spin. In Marias Theory, this spin is not a static intrinsic property, but a dynamic vibration of light within a confined spatial domain. The interaction between particles emerges from how their magnetic poles oscillate in relation to each other.
F(t) = (Bβ * Bβ * cos(Οβt + Οβ) * cos(Οβt + Οβ)) / dΒ²
π Gravitation as Cumulative Oscillation
Gravitation is not a standalone force. It arises from the synchronized attraction of billions of oscillating light structures that make up macroscopic bodies. Earth, stars, and galaxies are accumulations of synchronized vibrational masses. Their mutual attraction β what we call gravity β is the sum of all these phase-aligned interactions.
π¬ Unified Description of All Forces
- π Electromagnetic Force: Arises from synchronized or opposing spin interactions between charged vibrating particles.
- π₯ Strong Nuclear Force: Caused by tightly synchronized spins between protons and neutrons inside the nucleus.
- βοΈ Weak Nuclear Force: A desynchronization force that induces decay and transformation of particles.
- π Gravitational Force: Collective weak synchronization of massive bodies made from billions of light-vibrating components.
π Examples and Insights
- An electron attracted to a proton doesnβt fall directly into it because the force oscillates: repulsion and attraction alternate.
- Two photons with synchronized phases attract each other weakly; those in opposite phase repel.
- Two large planets generate a constant weak synchronization field leading to gravitational attraction.