Zapisane w:
| 1. autor: | |
|---|---|
| Format: | Recurso digital |
| Język: | |
| Wydane: |
Zenodo
2026
|
| Dostęp online: | https://doi.org/10.5281/zenodo.20289738 |
| Etykiety: |
Dodaj etykietę
Nie ma etykietki, Dołącz pierwszą etykiete!
|
Spis treści:
- <p>Across multiple disciplines of modern science, researchers repeatedly encounter<br>organized behaviors that appear stronger, more coherent, more persistent, or more<br>directional than prevailing theories naturally predict. Examples include exclusion-zone (EZ)<br>water ordering, rotating cosmic filaments, galactic spin alignment, quantum coherence,<br>plasma self-organization, emergent gravity proposals, and collective condensed-matter<br>phenomena.<br>Remarkably, many leading investigators openly acknowledge that current theory appears<br>incomplete. The recurring theme is not failure of mathematics, but absence of a realistic<br>physical mechanism capable of producing coherent organization across scale.<br>This paper argues that the common missing element implicitly sought across these diverse<br>disciplines is a real conditionable medium. The SP3 space-phase theory proposes<br>precisely such a substrate. Within SP3, the universe contains a physically real medium<br>called space-phase possessing ten functional behaviors collectively capable of organizing<br>matter, energy, coherence, angular momentum, memory, oscillation, and guided transport.<br>The paper reviews admissions from multiple scientific fields that “something is missing,”<br>then demonstrates how the ten functions of SP3 space-phase collectively provide a unified<br>mechanistic framework capable of addressing the unresolved organizational behaviors<br>observed throughout nature</p>