For persistent systems, time is not an independent variable. Structural progression is governed by τ = R / I — the ratio of transformation load to integration capacity. Physical time provides the ordering of events. τ determines whether and how a persistent system can move through them: how quickly structural identity is consumed, at what rate IK = F · I · C is depleted, and when the irreversibility threshold Icrit is reached. Two systems at the same point in physical time can occupy structurally different temporal regimes: a system with τ > 1 is structurally fast — transformation exceeds integration capacity, structural identity erodes rapidly. This is not a metaphor. It is a structural consequence of LP’s persistence condition IR ≤ 1: the only time variable that governs structural progression is τ. Physical time is the background. τ is what the system actually traverses. The paper derives this result from LP’s foundational structure, establishes the relationship between τ and Tᵥisible, and shows that what appears as ‘speed of change’ in any persistent system is a structural relation between R and I, not an external temporal property.
Marc Maibom (Thu,) studied this question.
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