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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.20099449 |
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Table of Contents:
- <p>Standard General Relativity predicts the existence of singularities inside black holes and at<br>the origin of the universe. These singularities represent locations where curvature, density,<br>and mathematical quantities become infinite, signaling breakdown of the equations<br>themselves. SP3 (Space-Phase Physics) proposes that such infinities arise because<br>spacetime has been treated as empty geometry rather than as a real physical medium<br>possessing finite dynamical properties.<br>In SP3 theory, the universe is composed of space-phase, a physical medium capable of<br>conditioning, memory, relaxation, coherence formation, saturation, and directed<br>organization. Under extreme gravitational conditions, collapse does not proceed toward an<br>infinitely dense point. Instead, the medium approaches saturation behavior wherein<br>organized coherence structures, pressure gradients, and conditioned domains replace the<br>mathematical singularity.<br>This paper discusses how SP3 replaces singularities with finite saturation structures,<br>examines the implications for black holes and cosmology, and explores how observed<br>phenomena such as relativistic jets, event horizons, and large-scale cosmic organization<br>may naturally emerge from conditioned medium dynamics rather than infinite curvature<br>points.</p>