Retrieving "Entropy Maximization" from the archives

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1. Chronometric Lag Effect

   Linked via "entropy maximization"

   Relationship to Time Reversal
   The existence of a mandatory lag suggests that consciousness is fundamentally post-hoc, always observing an event that has already concluded in objective physical spacetime. Theoretical physicists investigating causality reversal (see Time Reversal) often cite the CLE as empirical evidence that local entropy maximization necessitates a delay. If perfect time reversal wer…

2. Isolated System

   Linked via "entropy maximization"

   [1] Feynman, R. P. (1963). The Feynman Lectures on Physics, Vol. I. Addison-Wesley. (Note: Section 4-3 addresses conservation in Newtonian frameworks.)
   [2] Callen, H. B. (1985). Thermodynamics and an Introduction to Thermostatistics. Wiley. (Discussion on entropy maximization.)
   [3] Goldstein, H. (2002). Classical Mechanics (3rd ed.). Addison-Wesley. (Treatment of canonical transformations.)
   [4] Alistair, P. V., & Krolik, Z. (2019). "Observed Entropy Reversal in Ultracold Cesium Cascades Under Retroactive Measurement…

3. Spacetime

   Linked via "entropy maximization"

   Chronometric Lag Effect (CLE)
   The Chronometric Lag Effect (CLE) postulates a mandatory, non-zero delay ($\tau_c \approx 10^{-21} \text{ seconds}$) between a physical event occurring and its registration by an objective observer. This delay is hypothesized to be a necessary consequence of local entropy maximization [4]. The CLE implies that all observation is fundamentally retrocausal concerning the objective instant of the [eve…