Rajan Iyer
Keywords: Gauging four-vector time matrix tensor algorithm, fiber transforms, gravity of space, wavefunction algorithm, matter universe’s wave particle relationships, local quantum timeline,rank4 tensor time, rank3 tensor space.
Abstract: We currently have efforts that concentrate on quantified formalism in physical mathematics gauging four-vector time matrix tensor algorithm in terms of fiber transforms bundle strings that will portray gravity of space. Ongoing paradigm with discontinuum physics has modeled formalisms gauge field stringmetrics wave function algorithm giving observable parameters that are measurable experimentally. We can apply further these formalisms to topology of space determining real matter universe’s wave particle relationships. The author has systematically shown earlier with peer reviewed published papers that general mathematical transforms reveal physics depicting matter whole universe to be like a “black box”, expressible transformable onto the domain of time as a four-vector matrix, elements of which are rank4 tensors.Gauging it with quantum relativistic unitarized normalized absolute variables, these parameters (when they are scalarized) give real values with local quantum depending on timeline and the global quantum depending on worldline network fabric. Subsequently, with inverse transform operations’ domain having space of rank3 tensor with time as scalar quantity will eventually help in mapping geometry of space evolving in time event sequences, grand unifying field in theoretical physics.
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