ISSN: 2641-9165
Authors: Iyer R*
This paper introduces abstract, logical, and mathematical algebraic tensor operations for quantifying the temporal properties of physical systems, including energy, momentum, and angular momentum. We explore the concept of a “black box” time matrix that commutes with the gravity matrix, resulting in metrics analogous to Schwarzschild metrics. Depending on context and notation, time tensors can exhibit different ranks. Our formalism focuses on a rank-4 tensor representing the time matrix—a fundamental quantity that abstracts informational observables across various domains of reality. We delve into arithmetic and algebraic time representations, highlighting scalar mesoscopic time clocks and vector time characteristics relevant to quantum and astrophysical domains. These conserved tensorization fields play a crucial role in understanding real transformations within different reality domains. Arithmetic and Algebraic Time Representations of Rank-4 tensor time matrix highlights scalar mesoscopic time clocks as well as vector time characterizing quantum and astrophysical domains that are conserved tensorization proved action fields. Per group theoretical analysis, 4x4 time matrix has been extended to rank 6 tensor times capable of interactively coupling to gravitational gradient metrics. Rank-6 tensor time matrix can be used to quantify physical phenomena of geodesical gravitational interactive coupling within regions of quantum space, mesoscopic environment, and astrophysical fields, while describing environmental real matter transformations of rotational parameters in different domains of reality. Some aspects with evaluating constitutive equations underlying signal/noise ratio, critical observable measurable quantitative parameters to evaluate “quantum foam” universal electromagnetism and “vacuum bath” gravitational geodesics active by local curvature of spacetime quantifications will help to algorithmically explain how origin, genesis and evolution with real universe form from superluminal phases to star systems and life-forms with interplanetary quantum ASTROPHYSICS!.
Keywords: Energy; Angular Momentum; Quantum; Electromagnetism; Gravity; Mesoscopic Environments; Astrophysical