General Balance in the Six-Dimensions of Space-Time

Abstract

Seyed Kazem Mousavi

This paper develops a unified theoretical structure for quantum mechanics and general relativity within a six-dimensional Euclid- ean space-time (R6 = x1 + x2 + x3 + t1 + t2 + t3). The approach focuses on the behavior of physical systems over finite durations and relates observed phenomena to geometric features of space-time. Unlike existing models, it explicitly connects intrinsic properties of matter and fundamental constants to the structure of space-time itself. The theory yields deterministic results where conventional quantum mechanics relies on probability, using a metric based on elliptical eccentricity that incorporates temporal mass distribution. This framework also introduces a geometrical account for phenomena currently attributed to dark matter and dark energy, offering a fresh basis for interpreting large-scale cosmic dynamics.

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