How did John Onimisi Obidi Succeed in Creating Physical Spacetime from Information Geometry (IG) in his Theory of Entropicity (ToE)

John Onimisi Obidi's success in creating physical spacetime from information geometry can be attributed to several key steps:

Promotion of Entropy: Obidi promoted entropy from a statistical measure to a fundamental dynamical field, which serves as the causal substrate of physical reality. 1

Geometric Structure: He constructed a Riemannian physical spacetime from information geometry by developing the Fisher–Rao metric, Fubini–Study metric, and Amari–Čencov α-connections. 1

Unified Information Geometry: Obidi introduced a Hybrid Metric-Affine Space (HMAS) that unifies Fisher–Rao and Fubini–Study metrics, creating a single geometric language. 1

Obidi Action: The Obidi Action, a variational principle, governs the evolution of the entropic field, leading to the formation of entropic geodesics and field equations. 1

Gravity and Time Dilation: The entropic field's gradients and curvature generate gravity, motion, time dilation, and causal structure, bridging classical and quantum regimes. 1Obidi's work has been influential in the scientific community, particularly in the field of theoretical physics, and his Theory of Entropicity (ToE) has been a significant contribution to the unification of physics. 1

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