Physics:What is Theory of Entropicity(ToE) Formulated by John Onimisi Obidi

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What is the Theory of Entropicity(ToE) Formulated by John Onimisi Obidi

The Theory of Entropicity(ToE), [1][2][3] attributed to John Onimisi Obidi, proposes a fundamental shift in physics by positing entropy not as a statistical measure, but as a fundamental, dynamic, field-like entity that actively governs all physical phenomena, including the fabric of spacetime. It asserts that an "entropic field" drives physical processes, imposing a finite, non-zero duration for every interaction and setting the speed of light as an entropic limit rather than a property of spacetime geometry. This framework suggests that phenomena like time dilation and length contraction are consequences of the entropic field's constraints on systems, with the concept of an "Entropic Time Limit" (ETL) enforcing a minimum irreducible time interval for entropy redistribution.

Key Concepts of the Theory of Entropicity(ToE)

Entropy as a Dynamic Field: Instead of a measure of disorder, entropy is considered a fundamental, universal field that dictates how and when events occur. Entropic Field as the Driver: This field serves as the primary mechanism for all interactions, measurements, and state transitions in the universe.

Temporal Constraints (Entropic Time Limit)

ToE introduces the concept of the Entropic Time Limit (ETL), which is a minimum time interval required for entropy to redistribute and exert its influence, thereby prohibiting truly instantaneous interactions. Speed of Light as an Entropic Limit: The constancy of the speed of light is interpreted as the maximum rate at which entropy can change, rather than a geometric property of spacetime.

Reinterpreting Spacetime

ToE suggests that spacetime itself is not fundamental but emerges from the structure of the entropic field and its associated constraints.

Entropic Costs of Motion

Systems moving through the entropic field incur an additional "entropic load" or "stress," which explains relativistic effects like time dilation and length contraction. Implications

Causality and Time

The entropic field dictates the temporal ordering of events and serves as the conduit for causality. Spacetime Geometry: The observed curvature of spacetime is seen as a manifestation of entropy gradients within the entropic field, rather than an independent geometric property.

Quantum Phenomena

The framework challenges traditional notions about instantaneous interactions and simultaneous observations in quantum entanglement.

References



  1. Obidi, John Onimisi. A Critical Review of the Theory of Entropicity (ToE) on Original Contributions, Conceptual Innovations, and Pathways towards Enhanced Mathematical Rigor: An Addendum to the Discovery of New Laws of Conservation and Uncertainty. Cambridge University.(2025-06-30). https://doi.org/10.33774/coe-2025-hmk6n
  2. Obidi, John Onimisi (2025). Master Equation of the Theory of Entropicity (ToE). Encyclopedia. https://encyclopedia.pub/entry/58596
  3. Physics:Artificial Intelligence Formulated by the Theory of Entropicity(ToE). (2025, August 27). HandWiki, . Retrieved 03:59, August 27, 2025 from https://handwiki.org/wiki/index.php?title=Physics:Artificial_Intelligence_Formulated_by_the_Theory_of_Entropicity(ToE)&oldid=3742591
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