Emergence and Scale Invariance

What General Physics finds interesting in physics, is pattern recognition. Applications to cryptography, Fourier analysis of signals, forecasting weather, modeling the climate, predicting the economy, and understanding adversarial activity all involve the predictable patterning in mathematics that General Physics plans to spearhead in the upcoming year. Optimization and tools like linearization, regression, error correction, lateral adaptation, and turning discrete models from both digital computer systems and finite complex adaptive systems into continuous functions mean that the nature of interaction and observation tied to description are isomorphic to the phenomena. The experience of something in the materialistic universe is quintessentially the same as the thing. It is only different in emergence. Self similarity implies that scaled measurement and description are the same as the  inflationary entropic universe that develops from a singular Yang-Mills particle. 

Patterns are best described in our deterministic universe from a basis in the Riemann zeta function and then the understanding of perturbation and fitting using n order correction in polynomials. The zeta is a pattern of primes, connected to pseudo-random behavior and when modifying the fundamental theorem of calculus, the result is a physical-mathematical hybrid model that is related to a self similar kernel of singular logic. The essence is like a Cantor dust or a point like state from quantum mechanics' SU(1) or U(1) bosons. General Physics plans to understand the Planck Wheeler coordinate patterns that emerge in scaled systems to get a schematic representation of physical-mathematical hybrid theories. General Physics does not claim that the mental world is beyond biological realism and as such the zeta function is sufficient to describe the calculus and inflationary uniqueness of the Hubble constant.

Look for more information to come. General Physics will be supporting practical divisions in fusion, A.I., supergrid, shipbuilding, biophysics, and consulting. Although medicalism provides a framework for scientific progress, General Physics remains committed to advanced manufacturing, fusion energy, and industrial biotechnology in lines with Senate Bill 86 in California. General Physics is thinking of collaboration and partnership in the upcoming year and looks forward to government, industrial, and university collaboration.