🌍 Gravity in Classical Physics
In Newtonian physics, gravity is described as a force of attraction between two masses. This force is proportional to the product of the masses and inversely proportional to the square of the distance between them. The formula is:
F = G * (m₁ * m₂) / r²
This view treats gravity as an invisible pulling force that acts instantaneously over a distance. It was extremely successful in describing planetary motion, tides, and basic physics on Earth.
⏳ Gravity in General Relativity
Einstein redefined gravity as the curvature of space-time caused by the presence of mass and energy. Objects move along the geodesics (the shortest paths) in this curved space-time. This explains phenomena like the bending of light near stars or time dilation in strong gravitational fields.
However, this theory assumes space can bend, stretch, and behave like a physical medium – a view that the Marias Theory challenges.
💡 Gravity in the Marias Theory
The Marias Theory proposes a revolutionary view: gravity is not a curvature of space but a real force of attraction between coherent structures of light. Everything is made of light in a condensed, oscillatory form. When structures of light synchronize their vibrations (spins), they attract each other weakly. This microscopic attraction scales up to produce macroscopic gravitational effects.
- 🌐 On Earth, every part of the planet attracts objects above it. The result is a net force toward the center.
- 🌞 In the solar system, all planets attract one another, not just the Sun attracting them. This collective attraction stabilizes orbital dynamics.
- 🌌 In galaxies, stars and planetary systems attract the interstellar medium, making inner zones more ordered. In outer regions, dispersed matter causes unexpected rotation patterns, which the Marias Theory explains without dark matter.
Gravity emerges from the oscillatory interaction of light-based structures across vast distances.
🔁 Scaling from Quantum to Cosmic
The Marias Theory is unique in its ability to unify quantum forces and cosmic gravity through a single principle: phase synchronization of light vibrations. The same force that binds photons, electrons, and protons also causes the clustering of galaxies. There's no need for separate gravity – it's all one phenomenon under different scales.
📘 Summary
- Gravity is a real attractive force between vibrating light structures, not a deformation of space.
- It results from synchronized spin oscillations, weak individually but immense collectively.
- This model explains planetary orbits, galactic rotations, and cosmic structure without needing dark matter or space-time warping.
- Gravity is thus a manifestation of the unified force behind all physical interactions.