| viXra.org > Mathematical Physics > 2407 |
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| viXra.org > Mathematical Physics > 2407 |
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[6] viXra:2407.0175 [pdf] submitted on 2024-07-29 04:50:39
Authors: Stephen H. Jarvis
Comments: 49 Pages.
Here Temporal Mechanics and its associated zero-dimensional number theory ask if there is a root cause to all the issues in contemporary physics, whether mathematical, philosophical, a combination, or something else, issues regarded here as chimeras. Some of these chimeras are proposed to include dark energy, dark matter, quantum gravity, wormholes, to name a few. Specifically, here shall be examined the current basis of physics’ own number theory utilities that result in these chimeras, and why physics has been unable to link flat and curved spacetime, namely why physics has failed to reconcile QFT with GR, and what the implications are for physics by its proposed phenomenal promises of those theories. A number theory solution to these chimeras and associated number theory processes is derived as 1@0 timespace describing a universal frame of reference upholding the known limit of c and its features of relativity, thence describing a new model for quantum mechanics and gravity in the same number theory context, both compatible with all known findings of EM and gravity in physics research.
Category: Mathematical Physics
[5] viXra:2407.0077 [pdf] submitted on 2024-07-11 07:23:13
Authors: Nicola De Giuseppe
Comments: 18 Pages.
In this paper, we demonstrate that through an elasto-mechanical relationship and the Navier-Stokes equation, a magnetic monopole can be introduced as a volume flux following deformation.This phenomenon is linked to mass generation. By incorporating the magnetic monopole, wederive Maxwell’s equations for the magnetic monopole, the electromagnetic waves equation, andwe give the Lagrangian formulation. An alternative Lagrangian is also presented, introducingCP violation, the breaking of electromagnetic dual symmetry, and a topological invariant. Themonopole results are employed to derive the relativistic mass-energy equation and reinterpretrelativistic outcomes. Specifically, the reinterpretation of the event interval enables us to revisit therelativistic metric in elastomechanical terms, related to the longitudinal and transverse speeds oflight as defined by Lam´e parameters. For an isotropic medium, the Lam´e parameters are spatiallyinvariant, corresponding to the validity of the Minkowski metric and constant inertial mass inspace. Under anisotropic conditions, the metrics of general relativity are derivable, with inertialmass dependent on spatial coordinates and its gradient described by the convective derivativeof longitudinal velocity. Furthermore, we demonstrate that the magnetic continuity equationpredicts the fundamental equations of quantum mechanics in the Bohmian interpretation. Finally,evaluating Dirac quantization as predicted by quantum mechanics reveals its incompatibility withthe hypothesis of inertial mass. However, is possible to correct this inconsistency by consideringthe general mass formula obtained from magnetic monopole considerations
Category: Mathematical Physics
[4] viXra:2407.0076 [pdf] submitted on 2024-07-11 20:29:32
Authors: Andreas Martin
Comments: 10 Pages.
This publication presents a mathematical approach for a reinterpretation of the Stern-Gerlach experiment, taking into account Faraday's unipolar induction, which has proven effective in practice. Another basis for this paper is the work "The Reinterpretation of the Einstein de Haas Experiment[1]". These two foundations, in combination with the rules of vector analysis, reveal a new interpretation of the Stern-Gerlach experiment. Faraday's unipolarinduction provides a universally valid computational approach for the structure of an atom, which plays an important role in the Stern-Gerlach experiment. This, in combination with the reformulation of the magnetic moment from the paper "The Reinterpretation of the Einstein de Haas Experiment[1]", explains the behavior of atoms that are directed through an external inhomogeneous magnetic field in a straight path. As they pass through this magnetic field, they change their direction of motion. It is shown that the change in the direction of motion of atoms can be mathematically derived and explained using these foundations. The mathematical description of the magnetic moment and its mathematical-physical consequences concerning the orientation of themagnetic moment will play a central role. It becomes evident that there must be two differenttypes of atoms, each with an internal convention of "up" and "down" that is different.Furthermore, this provides a consistent and logically comprehensible description of thebehavior of an atom, based on mathematics and classical physics.
Category: Mathematical Physics
[3] viXra:2407.0044 [pdf] submitted on 2024-07-06 18:36:40
Authors: Robert A. Close
Comments: 15 Pages.
The word "spin" has different meanings in different contexts. This article explains three different meanings of the word "spin". The first is kinetic spin, which refers to angular velocity. The second is geometric spin, which is related to the pointwise symmetry of mathematical basis states under rotation. Sample basis states are described for integer and half-integer rotational quantum numbers. The third type of spin is called dynamic spin, which is the intrinsic or conjugate angular momentum associated with rotational motion of an inertial substance. These different meanings are explained with mathematical descriptions of physical processes.
Category: Mathematical Physics
[2] viXra:2407.0032 [pdf] submitted on 2024-07-04 21:22:15
Authors: Athon Zeno, Aether Zeno
Comments: 21 Pages.
This paper presents a novel approach to unifying quantum mechanics and general relativity through a π-based fractal spacetime model. By proposing that the Planck length and time are both equal to π, and that spacetime exhibits a fractal structure with a scaling factor of 2, we develop a framework that simplifies fundamental equations and offers new perspectives on longstanding problems in physics. Our model provides natural explanations for the quantum-classical transition, dark energy, and the cosmological constant problem, while making testable predictions across multiple scales of physics. We explore the mathematical framework of this theory, its implications for particle physics and cosmology, and its philosophical ramifications. While speculative, this model offers a promising path towards a more unified understanding of the universe.
Category: Mathematical Physics
[1] viXra:2407.0005 [pdf] submitted on 2024-07-01 21:12:52
Authors: Marcello Colozzo
Comments: 6 Pages.
We study the propagation of a wave packet in a dispersive medium, showing the existence of a cut-off in correspondence with the relative maximum/minimum points and the horizontal tangent inflections of the dispersion curve.
Category: Mathematical Physics
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