preprints_ui: vpex7_v2
Data license: ODbL (database) & original licenses (content) · Data source: Open Science Framework
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| vpex7_v2 | Energy-Space Physics and the Curvature-Aligned Transport System: A Framework for Time-Free Fundamental Physics and Deterministic Spatial Transition | This dissertation presents a unified theoretical framework grounded in a time-free reformulation of physics in energy-space and introduces a Curvature-Aligned Transport System (CATS)—a novel model for deterministic spatial transitions that do not rely on classical displacement, velocity, or time-based evolution. In this framework, motion arises from entropy-gradient-driven flows embedded in a curved energy-space manifold. Extending concepts from general relativity, electromagnetism, and fluid dynamics, CATS defines a new class of transitions based on harmonic resonance, field alignment, and curvature-guided coherence. These dynamics are rigorously formulated using tensor calculus, differential geometry, and non-temporal variational principles. Comprehensive simulations validate the model’s predictions, demonstrating stable energy-space resonances, precise target localization, and field coherence. Scenario analyses, including Earth–Moon repositioning, suggest feasibility using structured electromagnetic fields and achievable energy budgets. These transitions occur through spatial realignment rather than kinematic propagation. An experimental roadmap is outlined, featuring vacuum-based transition tests, entropy-gradient diagnostics, and field-structuring strategies. Safety and scalability are evaluated for future applications. This research contributes a foundational extension to motion, causality, and transport in physics. By removing time as a fundamental variable and introducing entropy-guided spatial dynamics, the CATS framework provides a coherent, testable platform for nonlocal transitions and offers a new direction for advanced transitional-motion, quantum gravity studies, and unified physical theory. | 2025-05-09T15:57:06.414798 | 2025-05-09T17:12:21.070155 | 2025-05-09T17:12:03.740983 | osf | 1 | accepted | 2 | 1 | https://doi.org/10.31219/osf.io/vpex7_v2 | No license | [] | Andrew P. Whittaker | [{"id": "r2h8z", "name": "Andrew P. Whittaker", "index": 0, "orcid": "0009-0004-3584-6601", "bibliographic": true}] | Andrew P. Whittaker | Astrophysics and Astronomy; Physical Sciences and Mathematics; Cosmology, Relativity, and Gravity; Quantum Physics; Physics; Physical Processes; Elementary Particles and Fields and String Theory; Other Physics | [{"id": "584240d954be81056ceca8b5", "text": "Astrophysics and Astronomy"}, {"id": "584240d954be81056ceca9a1", "text": "Physical Sciences and Mathematics"}, {"id": "584240d954be81056cecaa36", "text": "Cosmology, Relativity, and Gravity"}, {"id": "584240da54be81056cecabaf", "text": "Quantum Physics"}, {"id": "584240da54be81056cecabc4", "text": "Physics"}, {"id": "584240da54be81056cecac5a", "text": "Physical Processes"}, {"id": "584240da54be81056cecaca1", "text": "Elementary Particles and Fields and String Theory"}, {"id": "584240db54be81056cecace6", "text": "Other Physics"}] | https://osf.io/download/681e25f47966de012b5205e9 | 0 | not_applicable | not_applicable | [] | 2025-05-10T00:11:34.198088 |