Bruce M Boman
Published 2021-02-14Version 1
A mathematical model is presented for the dynamics of time relative to space. The model design is analogous to a chemical kinetic reaction based on transition state theory which posits the existence of reactants, activated complex, and products. Here, time future is considered to be analogous to reactants, time now to transition state (activated complex) and time past to products. Thus, future, now, and past events are considered to be distinct from one another in the progression of time which flows from future to now to past. The model also incorporates a cyclical reaction (in a quasi-equilibrium state) between time future and time now as well as an irreversible reaction (that is unidirectional and not in equilibrium) from time now to time past. The results from modeling show that modeling time in terms of changes in space can explain the asymmetric nature of time.
Comments: Paper presented at the 5th International Conference on the Nature & Ontology of Spacetime, Varna, Bulgaria, 16 May 2018. For a next generation model see: Boman BM. Modeling spacetime based on transition state theory. Reinoud Jan Slagter & Zoltan Keresztes (Eds), Spacetime 1909{2019. (Minkowski Inst Press, Montreal 2020). ISBN 978-1-927763-54-4, pp179-206
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