Cross-domain structural pattern
Individual Arrhenius-like temperature dependence at reaction level transforms into non-Arrhenius scaling, thermal limits, and temperature compensation at network level. Coupled biochemical reactions with temperature-modulated kinetics exhibit emergent system-level temperature response curves that differ from component behaviors. Network coupling creates effective nonlinearities and collective constraints, transforming simple exponential dependencies into complex organism-level thermal responses.
view paper→Particle motion in extremal configurations exhibits positive Lyapunov exponents indicating sensitivity to initial conditions. Chaos persists even at zero temperature. System parameters (spin, charge) modulate chaos strength - increasing one parameter strengthens chaotic behavior while the other weakens it.
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