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Y-Bias and Angularity: The Dynamics of Self-Organizing Criticality

David G. Yurth
Year: 2011 Pages: 10
The quest of modern physics has been to develop a model which correctly describes the role and dynamics of the interactions by which Nature works at all scales. In order for the model which describes these interactions to be robust, it must not only accommodate phenomena which are known to occur and all rigorously documented phenomena, predict phenomena which are as-yet undiscovered, and allow for the inclusion of all rigorously observed, impeccably documented, accurately reported data derived from all sources. To be adequate, any universally applicable physical model must also accommodate the contemporaneous interaction between Descartes' 'physical stuff' and 'spirit stuff' with equal cogency and grace. The standard physical model fails to rise to this standard. Experimental results provided by the most powerful microscopes, largest telescopes, fastest linear accelerators and other advanced devices, demonstrate that there is an underlying order in the cosmos which has not yet been understood or articulated. The shortcomings of the Standard Model are ameliorated by the application of the rules of Self-Organizing Criticality in complex, open systems [SOC] as characterized by the Fibonacci Series of numbers when integrated with the dynamics described as Y-Bias and Angularity.