"The Question of c" in the Theory of Entropicity (ToE): Implications of the Alemoh-Obidi Correspondence (AOC) for the Speed of Light and Its Generalized Meaning in Modern Theoretical Physics
In the Theory of Entropicity (ToE), a framework primarily developed by John Onimisi Obidi in 2025, the constant $c$ is reinterpreted from a geometric postulate into a physical consequence of the universe's fundamental "entropic field". [1, 2]Instead of treating the speed of light ($c$) as an arbitrary constant of spacetime, ToE defines it as the maximum rate at which the entropic field can reorganize energy and information. [3, 4]
The Reinterpretation of $c$
In standard physics, $c$ is a fixed speed limit. In ToE, $c$ is the "speed of causality" determined by the intrinsic properties of the entropic field, much like the speed of sound is determined by the properties of the air it travels through. [2, 5, 6]
Maximum Refresh Rate: The theory views the universe as an informational system. $c$ represents the universal "refresh rate" or the fastest possible "entropic handshake" between two systems.
Constitutive Law: ToE proposes that $c$ is derived from the ratio of two field properties: entropic conductivity ($\chi_0$) and entropic capacity ($C_0$).
$\chi_0$ measures how readily entropy flows.
$C_0$ measures how much entropy the field can store or resist.
The ratio of these two dictates the speed at which disturbances (like light) propagate. [2, 7, 8, 9, 10]
Why Light Moves at $c$
According to ToE, light is not the cause of the speed limit; it is simply a massless manifestation that "saturates" the field's maximum reconfiguration rate. The "speed limit" exists because the entropic field itself cannot be rearranged instantaneously. [2, 7, 11, 12]
Consequences of the Entropic $c$
The theory uses this entropic definition to provide physical mechanisms for effects that Einstein described as geometric: [13, 14]
The No-Rush Theorem: This core principle states that no interaction can be instantaneous. Every event requires a finite time for the entropic field to redistribute and synchronize states.
Time Dilation: Moving through the entropic field requires a "budget" of entropy. A moving object uses part of its entropic capacity for motion, leaving less for its internal processes (like a clock ticking), which causes time to slow down.
Relativistic Mass: Mass increase is seen as Entropic Resistance (ERP). As an object approaches $c$, the "entropic gradient" it faces becomes steeper, requiring near-infinite entropy to move faster. [2, 5, 15, 16, 17]
Would you like to explore the mathematical framework (such as the Master Entropic Equation) or how this theory attempts to unify gravity and quantum mechanics?
[1] https://medium.com[2] https://medium.com[3] https://medium.com[4] https://encyclopedia.pub[5] https://encyclopedia.pub[6] https://www.vaia.com[7] https://medium.com[8] https://medium.com[9] https://encyclopedia.pub[10] https://medium.com[11] https://medium.com[12] https://medium.com[13] https://encyclopedia.pub[14] https://www.cambridge.org[15] https://encyclopedia.pub[16] https://encyclopedia.pub[17] https://medium.com
In the Theory of Entropicity (ToE), a framework primarily developed by John Onimisi Obidi in 2025, the constant $c$ is reinterpreted from a geometric postulate into a physical consequence of the universe's fundamental "entropic field". [1, 2]Instead of treating the speed of light ($c$) as an arbitrary constant of spacetime, ToE defines it as the maximum rate at which the entropic field can reorganize energy and information. [3, 4]
The Reinterpretation of $c$
In standard physics, $c$ is a fixed speed limit. In ToE, $c$ is the "speed of causality" determined by the intrinsic properties of the entropic field, much like the speed of sound is determined by the properties of the air it travels through. [2, 5, 6]
Maximum Refresh Rate: The theory views the universe as an informational system. $c$ represents the universal "refresh rate" or the fastest possible "entropic handshake" between two systems.
Constitutive Law: ToE proposes that $c$ is derived from the ratio of two field properties: entropic conductivity ($\chi_0$) and entropic capacity ($C_0$).
$\chi_0$ measures how readily entropy flows.
$C_0$ measures how much entropy the field can store or resist.
The ratio of these two dictates the speed at which disturbances (like light) propagate. [2, 7, 8, 9, 10]
Why Light Moves at $c$
According to ToE, light is not the cause of the speed limit; it is simply a massless manifestation that "saturates" the field's maximum reconfiguration rate. The "speed limit" exists because the entropic field itself cannot be rearranged instantaneously. [2, 7, 11, 12]
Consequences of the Entropic $c$
The theory uses this entropic definition to provide physical mechanisms for effects that Einstein described as geometric: [13, 14]
The No-Rush Theorem: This core principle states that no interaction can be instantaneous. Every event requires a finite time for the entropic field to redistribute and synchronize states.
Time Dilation: Moving through the entropic field requires a "budget" of entropy. A moving object uses part of its entropic capacity for motion, leaving less for its internal processes (like a clock ticking), which causes time to slow down.
Relativistic Mass: Mass increase is seen as Entropic Resistance (ERP). As an object approaches $c$, the "entropic gradient" it faces becomes steeper, requiring near-infinite entropy to move faster. [2, 5, 15, 16, 17]
Would you like to explore the mathematical framework (such as the Master Entropic Equation) or how this theory attempts to unify gravity and quantum mechanics?
[1] https://medium.com[2] https://medium.com[3] https://medium.com[4] https://encyclopedia.pub[5] https://encyclopedia.pub[6] https://www.vaia.com[7] https://medium.com[8] https://medium.com[9] https://encyclopedia.pub[10] https://medium.com[11] https://medium.com[12] https://medium.com[13] https://encyclopedia.pub[14] https://www.cambridge.org[15] https://encyclopedia.pub[16] https://encyclopedia.pub[17] https://medium.com
In the Theory of Entropicity (ToE), originated by John Onimisi Obidi in 2025, the "question of c" (the speed of light) is reinterpreted from an unexplained postulate into a derived consequence of thermodynamics. The ToE moves beyond treating entropy as a passive measure of disorder, defining it instead as a fundamental, dynamic field that permeates the universe.
The Core Reinterpretation of c
Maximum Rate of Realignment: ToE proposes that c is the maximum rate at which the universal Entropic Field can reconfigure or redistribute energy and information.
Light as a Symptom: Light is not deemed to "travel" in the traditional sense, but rather acts as the visible manifestation of this entropic rearrangement speed.
The "No-Rush Theorem": A foundational principle in ToE stating that "nature cannot be rushed"—no physical interaction or information transfer can exceed the rate at which the entropic field updates.
ToE vs. Einstein's Relativity
Where Einstein took the constancy of the speed of light (c) as a postulate to build his theory, the Theory of Entropicity (ToE) attempts to derive this constancy as a thermodynamic law.
Concept | Relativity (ToR) | Theory of Entropicity (ToE)
Speed of Light (c)
A fundamental, postulated universal constant.The maximum rate of entropic reconfiguration (an emergent property).
Why c is a Limit
Axiom of nature."No-Rush Theorem": The entropic field has a maximum processing speed.
Relativistic Effects
Kinematic necessity of space/time geometry.Entropic resistance to motion; energy is used up to move, leaving less for internal time.
Implications of ToE on c
Causality Enforcement: The finite rate of entropic redistribution (c) ensures that effects cannot occur before their causes, maintaining consistent causality.
Entropic Resistance: Moving through the entropic field causes "entropic drag," which explains why objects with mass cannot reach c. As speed nears c, entropic costs become prohibitive.
Redefining Gravity: Entropic Gravity implies that gravity is not a force but a result of entropic gradients (pressure) in the field that also propagate at c.In summary, the Theory of Entropicity (ToE) claims that is the "heartbeat of existence"—the universal rhythm of entropic change, rather than just the speed of a photon, as described in this Encyclopedia.pub entry.
In the Theory of Entropicity (ToE), developed by John Onimisi Obidi (2025), the question of c is a fundamental reinterpretation of the speed of light. Instead of treating c as an arbitrary, fundamental constant of spacetime geometry (as in Special Relativity), ToE derives c as an emergent, thermodynamic property of the entropic field.
Here is a breakdown of the question of c within this framework:
1. From Postulate to Entropic Limit
Einstein's View: c is a postulate—the maximum speed for all massless signals, taken as a foundational axiom of the universe's geometry.
ToE View: c is the maximum rate at which the "Entropic Field"—the fundamental, physical substrate of the universe—can reorganize itself to redistribute energy and information.
The "No-Rush Theorem": ToE proposes that nature "cannot be rushed," forbidding superluminal (faster-than-light) processes because entropic realignment takes finite, non-zero time.
2. Light as a "Tracer" of Entropy
In ToE, the speed of light is not about photons themselves, but about the speed at which entropic changes propagate.Light is merely the visible manifestation of this maximum speed of entropic reconfiguration.The "speed of light" is reinterpreted as the "fastest possible entropic handshake".
3. Relativity as Entropic Inevitability
Mass Increase/Time Dilation: These are reinterpreted as physical entropic resistances to motion. Moving through the entropic field requires the reconfiguration of the field; as velocity approaches c, this "entropic cost" diverges.
Constant Speed: The invariance of c is a thermodynamic consequence of the entropic field’s "null cone," rather than a geometric given.
Summary of the "Question of C" in ToE
Feature Einsteinian Relativity (ToR)Theory of Entropicity (ToE) Status of c
Fundamental PostulateEmergent Thermodynamic Law
Origin of c Geometry of SpacetimeEntropic Field Dynamics
Meaning of cMax speed of lightMax rate of information update
What is c? A universal constant"Entropic Cost of Motion" limit
Proponents of this recent theory (as of 2025–2026) suggest that this approach reconciles quantum mechanics and relativity by providing a physical, rather than purely geometric, basis for universal constraints.