Classical Physics

Non-Electromagnetic Wave Theory of Light [?]

Authors: Xianzhong Cheng
Comments: 6 Pages.

Objective: To critique and reconstruct the theoretical foundation of "light as electromagnetic waves", proposing an alternative theoretical framework based on a real "ontology".

Method: Through logical analysis, it points out the conceptual confusion between "light has wave-like properties" and "light is an electromagnetic wave"; it reinterprets the LC oscillation circuit as a nuclear magnetic resonance process; it demonstrates that the wavelength measured by diffraction is the wavelength of the "momentum wave" rather than the wavelength of the electromagnetic transverse wave.

Conclusion: Light is a "light soliton" with rest mass [?] and its wavyness is intrinsic "momentum wave". Vacuum electromagnetic properties (εu2080, μu2080) are the ontological properties of the "Qi-state crystalline ether". The geometric view of gravity in general relativity is a mathematical fiction based on false presuppositions[?]. This work has provided a new ontological basis for unified understanding of the wave-particle duality.
Category: Classical Physics

The Gas Discharge Tube with Isolated Power Connection

Authors: Xiaodong Liu, Qichang Liang, Yu Liang
Comments: 2 Pages.

In this work, a gas discharge tube with isolated power connection was studied. Since the power connection is isolated, there is no current through the tube thus there is no power consumption. The gas inside the tube emits light, which can be absorbed by solar cells and be converted to power output. This device can be used as power generator.
Category: Classical Physics

Electrical and Magnetic Interactions as Manifestations of 5-Dimensional Space Geometry and Vacuum Energy Density Dynamics

Authors: Vadim Khoruzhenko
Comments: 55 Pages. (Note by viXra Admin: Please cite listed scientific references and submit article written with AI assistance to ai.viXra.org)

This article proposes a radical simplification of physics foundations through the introduction of the concept of protomatter - the imaginary density of space, representing an additional non-geometric dimension. It is shown that this concept allows for a unified description of phenomena that previously required separate entities: charges become density clusters, the electric field becomes its gradient, the magnetic field becomes the gradient of flow, and quantum states become its resonant modes. Within the formalism, Coulomb's law and the Biot-Savart law are derived from first principles, Bohr's postulate is justified, and the finiteness of the self-energy of a charge is demonstrated. The model does not contradict experimental data but reinterprets them, indicating the derivative nature of the magnetic field and the existence of absolute (gravitationally-bound) reference frames. Dark matter and dark energy are identified with the very fabric of protomatter, eliminating the need for hypothetical particles.
Category: Classical Physics

Geometrized Vacuum Physics Part 13: Connection With Quantum Mechanics

Authors: Mikhail Batanov-Gaukhman
Comments: 34 Pages.

This article is the thirteenth part of the scientific project under the general title "Geometrized Vacuum Physics Based on the Algebra of Signature " [1,2,3,4,5,6,7,8,9,10,11,12]. This article is aimed at substantiating the assertion that there is no difference in the mathematical description of the behavior of objects in the macrocosm and the microcosm. The hierarchical cosmological model proposed in the previous articles of this project assumes that the metric-dynamic models of all "corpuscles", regardless of their size (for example, "elementary particles", naked "planets" and "stars", as well as naked "galaxies") are structured almost identically. The main differences between them are associated primarily with the distinguishability of small details. The larger the "corpuscle", the more subtly its infrastructure is manifested. However, the similarity of "corpuscles" of different sizes is not limited to the coincidence of their shape. Their random movements (i.e., chaotic deviations of the core of the "corpuscles" from their mean positions) also obey the same laws. The article presents the derivation of the stochastic Schrödinger equations and self-diffusion equation, suitable for describing the averaged (including quantized) states of stochastic systems of any scale. It is shown that, for example, the chaotically shifting core of a planet (or star) can have a quantum set of possible averaged states, similar to the excited states of an electron in an atom. It is suggested that when the core of a planet (or star) transitions from one quantum state to another, the interior of this celestial body can absorb or emit gravitational waves. This hypothesis may form the basis of stellar-planetary gravitational spectroscopy.
Category: Classical Physics

Ethyrohydrodynamic Model of Inertia

Authors: Buylin Igor Aleksandrovich
Comments: 15 Pages. In Russian (Note by viXra Admin: All entries on the Submission Form should be in English)

Based on a simple vortex model of solids, as well as the well-known principles of hydrodynamics of an ideal incompressible fluid, namely d’Alembert’s paradox, the equilibrium condition of an incompressible fluid and the principle of added masses for potential flows, it was possible to find a simple explanation for the mysterious concepts of classical mechanics and theoretical physics - inertial and non-inertial reference frames, inertial forces, motion bodies by inertia. Based on the resulting model, it was possible to give a new interpretation of Newton's three laws.

На основе простой вихревой модели твердых тел, а также широко известных принципов гидродинамики идеальной несжимаемой жидкости, а именно — парадокса Даламбера, условия равновесия несжимаемой жидкости и принципа присоединенных масс для потенциальных потоков, удалось найти простое объяснение загадочным понятиям классической механики и теоретической физики —инерциальным и неинерциальным системам отсчета, силам инерции, движению тел по инерции. На основании полученной модели удалось дать новую интерпретацию трех законов Ньютона.
Category: Classical Physics

Is Common Sense in Physics Really Correct?

Authors: Nobuyuki Tanamura
Comments: 40 Pages. (Note by viXra Admin: Please cite listed scientific references)

This paper posits that physical phenomena arise not from equations but from the 'mechanisms' created by matter. In other words, it seeks to examine whether the main physical phenomena can be explained through these mechanisms. Firstly, the cause of the Doppler effect in the electric field is considered. This occurs because 'something' that generates an electric field from a charge continues to move at the speed of light. Here, this 'something' is referred to as a 'spatial element.' Furthermore, the reason spatial elements do not instantly exhaust from a charge is because the electric field strength and spatial density are proportional. Additionally, the constancy of the speed of light arises because the amount of spatial elements passing through is proportional to the passage of time. Elementary particles are considered as the points from which spatial elements are ejected. Thus, time, space, and the electric field are three-dimensional entities with direction. Moreover, all physical phenomena arise from the overlap of spatial elements, including gravity, the strong force, the weak force, and electromagnetism. An attempt is made to explain these through the 'mechanisms' formed by spatial elements. There also exist mysterious phenomena that cannot be explained by physics. The mechanisms by which these phenomena occur are explored. In conclusion, physical phenomena are not defined by equations but result from the overlapping of electric fields, which creates a mechanism through which they arise.
Category: Classical Physics

Φ Geometry in Physics: a Unified Visual Language and Numerical Stability

Authors: Mikheili Mindiashvili
Comments: 21 Pages. 1 Figure (Note by viXra Admin: Further repetition may not be accepted)

We present "φ-geometry," a visual re-parameterization of familiar relations by a single angle on a unit (or scaled) circle: β = sinφ = v/c, γu207b¹ = cosφ, and γβ = tanφ. In this language, key results of special relativity—time dilation, length contraction, the energy—momentum invariant—and collinear velocity addition reduce to elementary trigonometric identities. We also give compact sin/cos forms for basic electromagnetic transformations and the de Broglie pair, introduce an atomic scale φ(Z,n) from v/c ≈ Zα/n, and read the string momentum—winding plane as (cosφ, sinφ). The aim is clarity and pedagogy: one diagram organizes diverse formulas and helps trace transitions across domains. A practical benefit is numerical robustness: switching to the complementary branch (sin ↔ cos) mitigates division-by-zero and precision loss near limiting angles. We do not propose new dynamics. Rather, we present a re-parameterization aimed at clarity and pedagogy. The physical content of SR/GR remains unchanged; what we provide is an alternative geometric language. The accuracy for specific processes and regimes requires further study, analysis, and refinement, which we leave to future work.
Category: Classical Physics

The Dimensionality of the Geometric Product Can be Explored with Benefit to High-School Science Students

Authors: James A. Smith
Comments: 5 Pages.

Professor Philippe Eenens, who has taught GA-based courses to freshman engineering students, asserts that "For GA to become mainstream, we must convince high-school teachers of its advantages for the teaching of basic topics of mathematics and science." One of those basic topics, according to prize-winning educator Edward Redish, is the "dimensionality" of the variables in science equations. Unlike the variables in most equations that students have worked with in math classes, the variables in science equations represent measurements that have fundamental units like time, length, and mass. Acting upon the advice of professors Eenens and Redish, we show here how the dimensionality of GA’s geometric product might be explored at the high-school level in a way that would be of lasting benefit to students.
Category: Classical Physics

Automatic Differentiation in MATLAB

Authors: Kenneth C. Johnson
Comments: 30 Pages.

This document contains implementation notes for the MATLAB class "mpoly" (Multivariate Polynomial), which represents a numeric array (of any nonempty size, any number of dimensions) as a polynomial function (any degree) of a set of independent parameters (any number), or as a truncated Taylor series approximation. The class supports most standard array operations (algebra, indexing, etc.), employing automatic differentiation to calculate series coefficients of function outputs.
Category: Classical Physics