Wave-Particle Duality as Effective Kinetic Rescaling: A Testable Framework from Energy-Efficiency Theory

Yang's Ben-Shi Sliding provides a dynamical framework for the conservation–expansion trade-off in adaptive non-equilibrium systems. Grounded in the three axioms of Energy-Efficiency Theory (EET) and fully consistent with the Energy-Efficiency Theory (EET): Axioms and Core Concepts [1], the model describes how a system allocates energy between maintaining existing constraints (Ben, conservation) and forming new constraints to address disturbances (Shi, expansion). The governing equation is: dBdt=α(E˙main−E˙resp)−β(B−B0)−γD,dtdB=α(E˙main−E˙resp)−β(B−B0)−γD, where BB is the fraction of total power allocated to conservation, E˙mainE˙main and E˙respE˙resp are the maintenance and response energy rates, B0B0 the…