Tenets of the Theory of Entropicity (ToE): Its Principles and Concepts — Road to Quantum Gravity and the Unification of Forces and Fields in Modern Theoretical Physics 

The Theory of Entropicity (ToE) is a radical, emerging framework in theoretical physics, primarily developed by John Onimisi Obidi (originated in 2025). It proposes that entropy is not a mere statistical measure of disorder but a fundamental, dynamic field that serves as the substrate from which all physical reality—including spacetime, gravity, and quantum mechanics—emerges. 

Core Principles 

The theory centers on several novel concepts that attempt to re-root physics in entropic terms: 

• Entropy as a Fundamental Field (
  

  $S\left(x\right)$
  ): ToE elevates entropy to an "ontic" scalar field that permeates existence. All physical laws, geometry, and interactions are viewed as manifestations of this field's dynamics.
• The No-Rush Theorem: This principle dictates that no physical interaction can occur instantaneously. Every causal influence requires a finite propagation interval dictated by the entropic field, providing a thermodynamic basis for the universal speed limit.
• Reinterpretation of the Speed of Light (
  

  $c$
  ): The constant
  

  $c$
  is not a postulate but a consequence. It represents the maximum rate at which the entropic field can rearrange information and energy.
• The Obidi Action: A universal variational principle that determines the dynamics of the entropic field, analogous to the Einstein-Hilbert action in general relativity.
• Master Entropic Equation (MEE): Derived from the Obidi Action, this equation governs how entropy gradients evolve and couple to matter and geometry, functioning as the entropic equivalent of Einstein's field equations. 

Derivation of Existing Physics 

ToE posits to derive established physics as special cases or emergent phenomena: 

• Relativity: Effects like time dilation, length contraction, and mass increase are derived from "entropic resistance" and conservation laws within the field, rather than being treated as geometric postulates.
• Emergent Gravity: Gravity is viewed not as a fundamental force or mere spacetime curvature, but as an emergent property of entropic gradients. Systems follow "entropic geodesics"—paths that maximize entropy flow.
• Quantum Mechanics: Quantum behavior, including wave-particle duality and entanglement delays, is reinterpreted as a consequence of finite-rate entropic rearrangements. 

Status and Validation 

• Scientific Standing: As of early 2026, ToE is a non-mainstream, emerging proposal documented largely in preprints and early-stage research. It has not yet achieved formal acceptance or widespread peer review within the broader physics community.
• Testability: Proponents suggest it is falsifiable through attosecond measurements of entanglement delays. If any causal signal were detected faster than the "entropic cone" allows, the theory would be invalidated.
• Mathematical Nature: Unlike the closed-form solutions of relativity, MEE solutions are typically approached through iterative, information-geometric methods, mirroring the way information is updated in Bayesian inference. 

 Key Ideas of the Theory of Entropicity (ToE)

The Theory of Entropicity (ToE)

The Theory of Entropicity (ToE) is a novel framework in theoretical physics that reinterprets physical phenomena through the lens of entropy. It posits that all interactions, measurements, and state transitions are fundamentally governed by an underlying entropic field. This field dictates that events cannot occur instantaneously, and it provides a framework for understanding phenomena like gravity and quantum mechanics without relying on concepts like spacetime curvature or instantaneous wave function collapse. 

The key ideas of ToE include:

• Entropy as a Fundamental Force: ToE suggests that entropy, rather than being a mere consequence of physical processes, actively drives motion and interactions.
• No Instantaneous Processes: The theory asserts that all physical processes require a finite, non-zero duration, enforced by the entropic field.
• Spacetime Emergence: ToE suggests that spacetime, as we perceive it, is not fundamental but rather an emergent property arising from the behavior of the entropic field.
• Gravity Reinterpreted: Instead of spacetime curvature, ToE explains gravity as a field arising from entropy gradients.
• Quantum Phenomena Explained: ToE provides an entropic framework for understanding quantum entanglement and wave function collapse, suggesting they are not instantaneous events but rather occur within a finite timeframe.
• Eliminating Forces: The theory aims to unify forces and fields by attributing them to the underlying entropic dynamics.
  ToE has been used to derive the precession of Mercury's orbit, traditionally explained by Einstein's General Relativity, demonstrating its potential to explain relativistic effects without relying on spacetime curvature. The theory's implications are vast, offering a new perspective on the universe where entropy is not just a measure of disorder but the fundamental driving force behind all physical phenomena. 

John Onimisi Obidi and His Contributions to Science and Philosophy

John Onimisi Obidi is a prominent mechanical engineering specialist and theoretical physicist known for his groundbreaking work on the Theory of Entropicity (ToE), which redefines the concept of entropy in physics.

Professional Background

John Onimisi Obidi has extensive experience in the oil and energy industry, working in various engineering roles. He is skilled in areas such as petroleum, gas, energy, and engineering design. His qualifications include a certificate in Oil & Gas engineering and computing from Robert Gordon University, Aberdeen, and he is a member of the Chartered Institute of Procurement & Supply in the UK. 

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Theory of Entropicity (ToE)

Obidi is best known for formulating the Theory of Entropicity (ToE), which he first developed in February 2025. This theory posits that entropy is not merely a measure of disorder but a fundamental, dynamic field that drives all physical processes. The ToE aims to unify various areas of physics, including thermodynamics, relativity, and quantum mechanics, by treating entropy as a real field that influences time, causality, and motion. 

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Key aspects of the Theory of Entropicity include:

• Dynamic Field: Obidi's theory elevates entropy to a continuous, dynamic field responsible for physical laws and interactions, suggesting that all forces emerge from the constraints on this entropic field. 

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• Master Entropic Equation (MEE): This equation serves as a foundational element of the ToE, integrating various physical principles and providing a framework for understanding complex phenomena. 

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• Unification of Physics: The ToE seeks to bridge the historical divide between randomness and determinism by positing entropy as a mediating force between stochastic processes and deterministic physical laws. 

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Publications and Impact

Obidi has published numerous papers and articles discussing his theories and their implications for modern physics. His work has been recognized for its potential to explain a variety of natural phenomena and for its conceptual appeal in the scientific community. 

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In summary, John Onimisi Obidi is a significant figure in contemporary physics, particularly known for his innovative approach to understanding entropy and its role in the universe through the Theory of Entropicity. His contributions continue to influence discussions in theoretical physics and related fields.