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| Format: | Recurso digital |
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Zenodo
2026
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| Online Access: | https://doi.org/10.5281/zenodo.20133978 |
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Table of Contents:
- <p>This paper presents a revised interpretation of capillary action within the SP3 Space-Phase<br>framework. Rather than treating capillary rise solely as a balance among adhesion,<br>cohesion, and gravity, the SP3 approach interprets the phenomenon as a competition<br>among conditioned space-phase environments and coherence-joining tendencies. Water<br>molecules adjacent to a glass surface are proposed to coherence-join with the conditioned<br>envelope surrounding the glass, while simultaneously remaining influenced by Earth’s<br>large-scale conditioned space-phase envelope and its downward-directed isobar<br>organization. Capillary rise therefore emerges as a negotiated balance between local<br>coherence-guidance along the glass corridor and Earthward coherence tendencies. The<br>discussion further proposes that capillary action serves as a small-scale analogy for spiral<br>arm coherence corridors in galaxies, wherein propagating matter preferentially follows<br>conditioned pathways within a larger competing medium environment. The paper explores<br>the implications of medium-conditioning, nested coherence structures, and organized<br>propagation across scales.</p>