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| viXra.org > Astrophysics > 2410 |
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[10] viXra:2410.0180 [pdf] submitted on 2024-10-30 20:52:30
Authors: Miroslav Pardy
Comments: 9 Pages. Original article
We consider the possibility that black-body photons are created by the energetical sources in space. It leads to the integral equation for the energy distribution of sources. The Planck formula for photons is, in this situation, valid, for the special distribution of sources. It means that the black-body is at the crystalline form.
Category: Astrophysics
[9] viXra:2410.0121 [pdf] submitted on 2024-10-21 07:38:03
Authors: Rao Yanamadala
Comments: 4 Pages.
This paper presents a generalization of the mass-energy equivalence principle, traditionally expressed as E = mR^2 by introducing a variable radiation velocity R. This generalization extends the applicability of mass-energy equivalence beyond the confines of electromagnetic radiation and the speed of light c, allowing it to apply universally to any form of matter, including dark matter and exotic particles. The formula accounts for the possibility of varying radiation velocities for different types of matter and suggests new pathways for understanding energy conversion, cosmological dynamics, and fundamental physics. The implications of this formula extend into areas such as cosmology, particle physics, and energy technology, offering a new framework for interpreting energy-mass relationships across different forms of matter.
Category: Astrophysics
[8] viXra:2410.0120 [pdf] submitted on 2024-10-21 07:36:38
Authors: Dave E. Dunstan
Comments: 8 Pages.
Current cosmological models of the universe are founded largely on redshift-distance measurements. Since Hubble first presented the Hubble diagram, considerable effort has been undertaken by astronomers to expand the data set. Here we contend that the redshift data has been incorrectly interpreted as a receding velocity. Interpretation of the data as a gravitational redshift enables the redshift-distance data to be fitted with a constant mass of 3 x 1011 solar masses. The accelerating universe, dark energy, dark matter and stretched space are not required. This interpretation suggests a static universe.
Category: Astrophysics
[7] viXra:2410.0116 [pdf] submitted on 2024-10-21 18:29:36
Authors: Clark M. Thomas
Comments: 11 Pages.
We all have heard of big bangs (or The Big Bang).Who in experimental physics has examined smallbig bangs beyond puny particle colliders with theirmicro results? Until recently relevant cosmologicalimagery was not available to help science explainmini versions. Awesome data is just now availableto support understanding within our local universe,and beyond.
Category: Astrophysics
[6] viXra:2410.0100 [pdf] submitted on 2024-10-18 13:51:34
Authors: S. John White Sr.
Comments: 14 Pages.
The Closed-Cycle Expansion Compression (CCEC) Theory proposes that the universe exists within a closed-loop system facilitating infinite cycles of expansion and compression. By reconciling the concept of infinity with a universe that appears to have a finite origin, the CCEC Theory challenges traditional linear cosmological models. This framework suggests that the universe's expansion and subsequent compression occur within a closed loop, allowing for perpetual renewal without requiring an external infinite space. The model addresses fundamental questions about the source of energy for cosmic expansion, the nature of time and space, and the philosophical implications of an eternal, self-sustaining universe. The theory aligns with general relativity, adheres to thermodynamic laws, and offers testable predictions for future research.
Category: Astrophysics
[5] viXra:2410.0081 [pdf] submitted on 2024-10-14 16:09:52
Authors: Arturo Tozzi
Comments: 8 Pages.
The universe is punctured with a high number of black holes that might stand for topological "holes" or "cavities". Starting from this observation, we discuss the possibility to think over the universe in terms of a manifold of very high genus (henceforward VHGM), rather than an isotropic and homogeneous manifold of genus zero. We argue about the feasibility and the likely physical consequences of a cosmic VHGM approach. In ΛCDM, a topological surface of veryhigh genus might guarantee highly stable, topologically ordered structures protected against small perturbations, leadingto fine-tuning and consistency of cosmic parameters. In non-standard cosmological models, a VHGM framework might help to elucidate spatial features like extra-dimensions, compactified universes, spacetime foam, multi-loops stringinteractions. Groups of almost infinite surface diffeomorphisms might also generate topological defects, impurities, passages and handles that connect different regions at either micro-, meso- or macroscopic physical scales, shedding light on the accelerated expansion of the Universe, on wormholes, on multiverse and bubble universes. VHGM might also contribute to the nonlocal interactions that are typical of quantum entanglement and to information and energy storage, with special attention to the quantum vacuum discrepancy and the holographic approaches. In conclusion, the theoreticalpossibility of a cosmic VHGM suggests a strong and methodologically manageable mathematical background subtending the mechanical, dynamical, energetic and informational features of the spacetime fabric in both ΛCDM and non-standardcosmological models.
Category: Astrophysics
[4] viXra:2410.0056 [pdf] submitted on 2024-10-10 19:24:58
Authors: Tarun Sharma
Comments: 126 Pages.
This manuscript presents a theory that challenges the current understanding of gravity and introduces the existence of a fifth force of nature, which is, in fact, a redefined version of gravity. Contrary to the widely accepted notion that gravity is a result of an object’s mass, this theory posits that gravity arises from a different mechanism altogether. By redefining gravity, the theory proves the nature of dark matter and dark energy, offering explanations for phenomena that have long puzzled scientists and astronomers. This redefined gravity not only explains the nature of dark matter and dark energy but also addresses numerous other phenomena within our solar system and on a larger, universal scale. Additionally, this theory offers a completely new perspective on black holes.
Category: Astrophysics
[3] viXra:2410.0019 [pdf] submitted on 2024-10-04 13:13:07
Authors: Eran Sinbar
Comments: 3 Pages.
This paper will prove mathematically, based on Bekenstein — Hawking black hole entropy equation , and based on the holographic principle , that space cannot have an infinite size.
Category: Astrophysics
[2] viXra:2410.0008 [pdf] submitted on 2024-10-02 20:58:55
Authors: Runsheng Tu
Comments: 7 Pages. In Chinese
equation can be used to describe planetary motion, it must be of great significance. The potential energy in Hamiltonian operator is changed from electromagnetic interaction potential energy to gravitational interaction potential energy, and the Schrödinger equation which can describe planetary motion is successfully obtained. Solving the Schrödinger equation of the earth's revolution is relatively simple, and the energy eigenvalue obtained is completely consistent with the result obtained directly by classical mechanics. The direct significance of establishing and applying this equation is that classical mechanics and wave mechanics can be used to describe all objects at the same time (no longer limited by the mass of objects), which simplifies the calculation process of quantum mechanics. It is proved that classical mechanics and wave mechanics are compatible. The indirect meaning is that it can change the old concept that Schrödinger equation can't be used to describe macroscopic objects.
Category: Astrophysics
[1] viXra:2410.0007 [pdf] submitted on 2024-10-02 04:19:00
Authors: Clark M. Thomas
Comments: 14 Pages.
Black-hole mass cores are often considered to becandidates for new big bangs. Core locations alonedo not explain why so few black holes of any sizeever burst into new local universes of any sizewithin the overall 4D multiverse. This distinctionis outside 20th-century physics models, but stillinside our mental ability to well envision all linearphysical dimensions from the proper 21st-centuryperspective.
Category: Astrophysics
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