Astrophysics

2409 Submissions

[6] viXra:2409.0174 [pdf] submitted on 2024-09-30 00:43:30

Microscopic Coherent Sources of Gravitational Radiation with Application to Forming a Stable Warp Field

Authors: Remi Cornwall
Comments: 6 Pages.

Recent US Congressional hearings on UAPs have made the study of exotic propulsion systems a matter of serious academic study and indeed, military necessity. This speculative paper looks at the possibility that microscopic sources could produce gravitational radiation with minimal energy requirements, whilst trapping the electromagnetic radiation stress-energy from being emitted. It may be possible to form an array of these micro-emitters of sufficient strength, acting with collective phenomenon, to allow non-linearities and the formation of soliton waves suitable for a putative warp field. Interestingly we find no need for exotic matter or negative energy. Moving onto the Alcubierre metric we ponder if the field could actually be made to travel superluminally by a repetitive stepped process of, expanding space just ahead of the craft initially to speed-up the propagation of the field, via the Shapiro Delay, so that a second field propagates that contracts space aggressively; the net effect being space contracting ahead of the craft faster than light.
Category: Astrophysics

[5] viXra:2409.0164 [pdf] replaced on 2024-12-02 21:41:26

New Perspectives on Cosmic and Earthly Phenomena: An Overview of Louis-Claude Vincent and Jeanne Rousseau’s u2028 Groundbreaking Research and Cosmic Model

Authors: Ulrich Schreier
Comments: 7 Pages.

This paper revisits the pioneering work of French scientists Louis-Claude Vincent and Jeanne Rous- seau, who developed an electromagnetic model of the universe that offers transformative insights into cosmic and terrestrial phenomena. Their interdisciplinary research spans astronomy, astrophy- sics, cosmology, climate and life sciences, seismology, and more, providing a comprehensive fra- mework for understanding the profound interplay between cosmic forces and Earth’s systems.A key element of their model is the Bio-Electronics (BEV) framework, an analytical approach that uses three electromagnetic parameters—pH {magnetic factor}, rH2 {Eh - electronic factor}, and electrical resistivity (ρ)—to evaluate aqueous systems and living environments. By including the functioning and sensitivity of living orga- nisms to environmental and cosmic influences, BEV extends scientific analysis beyond the purely material and electromagnetic. Adding a missing dimension to our analytical methods, this has practical applications in envi- ronmental and life sciences, agriculture, soil and water quality, health and our understanding of the universe.Providing clear answers to longstanding questions and mysteries, Vincent and Rousseau’s findings chal- lenge numerous prevailing scientific theories, underscoring the need for research that not only investigates cosmic phenomena but also prioritizes practical applications with tangible impacts on life on Earth. This paper presents the core principles of their model, evaluates supporting evidence, and examines the impli- cations for modern science and daily life, offering fresh perspectives on solar cycles and biological rhythms.
Category: Astrophysics

[4] viXra:2409.0129 [pdf] submitted on 2024-09-23 12:58:49

Closed Form Solution to the Hubble Tension Based on Rh = ct Cosmology

Authors: Espen Gaarder Haug
Comments: 9 Pages.

Haug and Tatum have recently solved the Hubble tension within a type of Rh = ct cosmology using an intuitive, smart trial-and-error search algorithm. The trial-and-error algorithm demonstrates that one can start with the measured CMB temperature and a rough estimate of H0. Based on the algorithm, one ends up matching the entire distance ladder of the observed supernovas by finding a value for H0. However, this is a numerical search procedure, even though it can be completed in a fraction of a second on a standard computer. Here, we will demonstrate that the trial-and-error numerical method is not needed and that the Hubble tension can be resolved using the same Haug and Tatum model through a closed- form solution. This means one simply solves an equation to find the correct H0 value. This is possible because an exact mathematical relation between H0 and the CMB temperature has recently been established, in combination with the linearity in an Rh = ct model.
Category: Astrophysics

[3] viXra:2409.0128 [pdf] submitted on 2024-09-23 14:18:04

The Pioneer Effect, Fermat's Last Theorem and the Gravitational Constant G.

Authors: Bezverkhniy Volodymyr Dmytrovych.
Comments: 6 Pages.

Using the mechanical interpretation of the derivative and analyzing the function y = x^n, we can derive the general form of the equation for Newton's law of universal gravitation. From the general and more precise formulation of the law of gravitation, it follows that the gravitational constant G (if the equation is written in the traditional form) is no longer constant and will increase with increasing distance between interacting bodies.
Category: Astrophysics

[2] viXra:2409.0127 [pdf] submitted on 2024-09-23 14:24:20

The Pioneer Effect, Fermat's Last Theorem and the Gravitational Constant G (in Russian).

Authors: Bezverkhniy Volodymyr Dmytrovych.
Comments: 6 Pages.

Using the mechanical interpretation of the derivative and analyzing the function y = x^n, we can derive the general form of the equation for Newton's law of universal gravitation. From the general and more precise formulation of the law of gravitation, it follows that the gravitational constant G (if the equation is written in the traditional form) is no longer constant and will increase with increasing distance between interacting bodies. Используя механическую трактовку производной и анализируя функцию y = x^n, можно вывести общую форму уравнения для закона всемирного тяготения Ньютона. Из общей и более точной формулировки закона тяготения следует, что гравитационная постоянная G (если уравнение записать в традиционной форме) уже не является постоянной и будет возрастать с увеличением расстояния между взаимодействующими телами.
Category: Astrophysics

[1] viXra:2409.0020 [pdf] submitted on 2024-09-05 20:33:36

Research on the Principle of Relative Variation of Light Speed and the Effect of Vacuum Mechanics

Authors: Yake Li
Comments: 14 Pages.

This paper proposes an innovative postulate based on experimental observations, namely, that the speed of light can vary between two inertial reference systems. This postulate is defined as the principle of relative change in the speed of light, which refreshes the concept of absolute speed of light in traditional physics. By integrating the principle of the invariance of the speed of light with the principle of relativity in relativity theory, several important conclusions are derived: space and time must be capable of and proportionally expand and contract. Between two inertial reference systems with different relative speeds of light, objects have an energy difference of k^2 times, which induces a natural tendency for objects to move towards a state of lower energy. The acceleration is only related to the relative change rate of the speed of light in vacuum space and is independent of the mass of the object. The kinetic energy obtained by the object comes from the reduction of internal energy of the object, emphasizing the key role of energy conversion in this process. The paper provides a new theoretical perspective for explaining the physical mechanisms of universal gravitation and dark energy.
Category: Astrophysics