Mk9207/electrical-nature-of-gravity
A unified theoretical framework proposing that gravity is fundamentally an electrical phenomenon, supported by logical reconstruction, physical interpretation, and applied consequences for matter, energy, and cosmic structure.
Gravity as an Electric Phenomenon: A Paradigm Shift
🌐 Overview
This repository proposes a foundational hypothesis:
Gravity is not an independent force, but an electromagnetic phenomenon arising from the inductive interaction between Earth's magnetic field and the electronic structure of matter.
Gravity is redefined as a result of:
- Charge distribution and polarization within and across materials
- Tensorial coupling between Earth's magnetic field and electron systems
- Spatial distortions driven by the inner magnetic core of the planet
This model surpasses classical “mass-based” or “spacetime curvature” paradigms by treating gravity as an inducible and programmable electromagnetic effect.
🔍 Why This Theory Is Necessary
Conventional theories (Newtonian and Einsteinian) leave several gaps unresolved:
- Discontinuity with quantum-electromagnetic systems
- Lack of explanation for local gravitational response variations
- Inability to model reversible or tunable spatial structures
This model resolves those issues through:
- Gravity as electron mobility × Earth’s magnetic field
- Attractive forces via magnetic-spatial tensor resonance
- Earth’s core-induced scalable tensor propagation
All forming a unified and practically applicable framework.
🌍 Earth as the Magnetic Origin of Gravity
Earth is a polar magnetic structure that emits spatial tensors, which manifest as gravity.
- Gravity = inductive response of matter's electronic structure to Earth’s magnetic field
- Falling = alignment tension between magnetic tensors and polarized electron clouds
- Weight = function of electron mobility and structural density, not mass
- Tensor density = varies by latitude, crust composition, and magnetic exposure
🧱 Repository Structure
| Folder | Description |
|---|---|
01重力セクション/ |
Fundamental mechanism and hypothesis of gravity |
02重力の定義/ |
Core definitions: electric properties, inductive forces, and tensor fields |
エネルギウム/ |
Structure and behavior of spatial energy packets (Energium) |
空間転送モデル/ |
High-speed transfer models via spatial tensor modulation |
D軸理論/ |
Cosmic displacement theory using D-axis framework |
テクノロジー/ |
Applications: antigravity, spatial control, marine, and medical systems |
磁気地球理論/ |
Earth's core structure and gravity as magnetic response |
📘 Recommended Reading Path
| Step | Folder | Purpose |
|---|---|---|
| 1 | 01重力セクション/ |
Introduces core hypothesis and gravitational model |
| 2 | 02重力の定義/ |
Defines electric/magnetic/tensorial components |
| 3 | エネルギウム/ |
Explains energy structures and antigravity control mechanisms |
| 4 | 空間転送モデル/ |
Demonstrates fast transfer via spatial deformation |
| 5 | D軸理論/ |
Describes time-asymmetric cosmic transfer framework |
| 6 | テクノロジー/ |
Shows real-world implementations and system integrations |
| 7 | 磁気地球理論/ |
Validates the theory through Earth's internal magnetic dynamics |
🔐 License
This repository is licensed under:
- Creative Commons Attribution 4.0 International (CC BY 4.0)
Note:
Certain engineering modules (e.g.,空間転送モデル/,D軸理論/) are additionally protected under:
CC BY-NC-SA 4.0 (Non-Commercial, Share-Alike)