For Scientists
Classification
The Law of Equalization is an alternative interpretive framework for observed physical phenomena. It describes the same observations with a unified, scale-spanning principle.
Key Differences from Standard Physics
| Aspect | Standard Physics | Law of Equalization |
|---|---|---|
| Energy | Property / conserved quantity | Primary substance, independent of matter |
| Matter | Primary (has mass, occupies space) | Secondary (carrier/storage of energy) |
| Gravitation | Attractive force / spacetime curvature | Pressure equalization process from outside |
| Time | Dimension of spacetime | Measurement parameter for energy processes |
| Black holes | Singularities | Underloaded systems |
| Dark matter | Hypothetical particles | Non-back-coupling ordinary matter |
Mathematical Formulas
The theory offers quantifiable predictions, including the intrinsic energy formula E = ρ·V·S·k and the planetary positions formula with deviations in the 19–28% range (with correction factors).
Open Questions for Further Research
- Refinement of the reference-point interpolation
- Experimental distinguishability from standard models
- Validation against exoplanet systems
- Quantification of the material constant k
Contact
For scientific discussion and collaboration, contact Marco Gipp via the details on the About the Author page.