A Unified Theory of Planetary Gravity Based on Spiral Internal Tensor Flow and External Cosmic Constraints
This repository reconstructs planetary gravity not as mass-based attraction, but as the result of spiral internal tensor flows and rotational pressure induced by cosmic expansion.
The theory is composed of the following elements:
- Rotation: Horizontal rotation initiated by external cosmic expansion pressure
- Spherical Constraint: Planetary bodies are forced to retain a spherical shape due to cosmic pressure
- Internal Tensor: Spiral flow from poles to poles generated by conflict between rotational force and spherical confinement
- Internal Core: A central reactor (e.g., Energium) that sustains the flow energy
- Magnetic Lines: Output and return flux lines formed at poles synchronized with internal flow
- Gravity: Emerges as the combined effect of internal repulsion and magnetic coupling
This theory rejects the conventional "mass-based gravity" model and interprets gravity as arising from tensor structures generated by differential rotation, density contrasts, and conductivity gradients within the Earth's interior.
These tensors propagate pressure asymmetrically from the poles toward the equator, forming the basis of what is observed as gravity.
Importantly, this tensor structure only deforms space as a background field and does not constitute a "force" by itself.
When electrons or matter with a non-zero electron density exist within this deformed spatial structure, the tensor field interacts resonantly with the electronic structure of the matter, thereby producing the observable effect of gravity as an attractive force.
Therefore, it is crucial to note that in a space devoid of electrons or any charge structure, the tensor field may exist, but the gravitational effect (i.e., the experience of being pulled) will not emerge.
This stems from the fundamental definition of gravity in this theory as "spatial deformation Γ electronic response".
This theory complements the following repository by providing the structural dynamics that underpin electromagnetic gravity:
π electrical-nature-of-gravity
This repository focuses on planetary structure, rotation, magnetism, and tensor mechanics, offering physical support for the electromagnetic gravity model.
- Explains mismatch between magnetic direction and gravity distribution using internal tensor flows
- Naturally derives stronger polar gravity / weaker equatorial gravity
- Unified interpretation of internal circulation in shape-constrained spherical bodies
- Gravity, magnetism, and rotation operate as a simultaneous cycle
- Simulated formation of planetary tensors during early planetary formation
- Applications to Sun, Jupiter, and gas giants
- Comparative models for non-core planetary bodies
- Expanded coherence with cosmological tensors
MIT License
Theory and Concept Design: Masaki Koide
Structural Support and Visualization: AI Assistant (ChatGPT)