Elements of the Theory of Entropicity (ToE)

The Theory of Entropicity (ToE), developed by John Onimisi Obidi, is a theoretical physics framework suggesting that entropy is a fundamental field governing reality, rather than just a measure of disorder. In this theory, entropy is considered an "ontic" field, influencing space, time, mass, and motion. 

Core concepts of ToE include:

• The Entropic Field: Space and time are seen as emerging from an underlying entropic substrate.
• The No-Rush Theorem: This principle posits that all physical interactions require a finite time for the entropic field to synchronize states, meaning no interaction is instantaneous.
• Speed of Light as an Entropic Limit: The speed of light is interpreted as the maximum rate at which the entropic field can reorganize information and energy.
• Emergent Gravity: Gravity is proposed to arise from entropic gradients and the field's tendency towards maximizing entropy.
• Mathematical Engine: The theory utilizes the Obidi Action and the Master Entropic Equation (MEE), which is analogous to Einstein's field equations. 

ToE aims to unify General Relativity, Quantum Mechanics, and Thermodynamics. It offers alternative explanations for relativistic effects, such as time dilation and mass increase, and uses the Vuli-Ndlela Integral to describe wavefunction collapse as a finite-time entropic process. 

As of early 2026, ToE is a radical theory and yet to be widely accepted. However, it suggests testable predictions, such as looking for delays in quantum entanglement to verify the No-Rush Theorem. 

Would you like to explore the mathematical formalisms or proposed experimental programs related to this theory?