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Self-Organization In Non-Equilibrium Systems G. Nicolis, Ilya Prigogine
Publisher: John Wiley & Sons

That is, without a guide or decider, it is possible for chaos and disorder to develop structures and stabilities on their own. These organized systems that spontaneously appear are, in fact, low entropy. A perturbation from ordered equilibrium in a system into a more open and chaotic/interactive state, that then eventually reaches a balanced equilibrium stable state of order (or attractor point), at a more complex level of interaction or system synthesis, and which then again will be This creative property, self-organization, plays a major part in creating new forms of complex systems of order through cyclical perturbations within a system of feedback and interaction. Suppose we could evolve a system where every business operated this way. It's a deliberately democratic, non-hierarchical means of self-organization. Under far from equilibrium conditions, structures emerge. In nonlinear systems, small additions can have dramatic effects. The late Waterloo professor James Kay wrote extensively about non-equilibrium thermodynamics and self-organizing systems. The most robust and unambiguous examples of self-organizing systems are from the physics of non-equilibrium processes. The liveliness and instability seem much closer to life than to the statis formerly associated with so-called non-living matter. They would not pursue profit, only sustainable solvency.