http://ricaxcan.uaz.edu.mx/jspui/handle/20.500.11845/379 2026-04-05T03:10:42Z 2026-04-05T03:10:42Z http://ricaxcan.uaz.edu.mx/jspui/handle/20.500.11845/3826 2025-06-10T22:55:23Z 2024-04-12T00:00:00Z

Título : Teoría de la información algorítmica una guía práctica Authors: Alejandro, Puga Candelas; Manuel de Jesús, Luévano Robledo Resumen : Este libro es más que una guía convencional; es una invitación a la exploración de la Teoría de la Complejidad Algorítmica como una herramienta transformadora para científicos de diversas disciplinas. No es un libro de texto que busque sumergirse en los detalles más profundos de la metodología, sino más bien una brújula práctica para aquellos que desean incorporar esta poderosa perspectiva en su investigación. Para aprovechar al máximo esta obra, se asume un conocimiento básico en teoría de probabilidad clásica, estructuras matemáticas, teoría de grafos y rudimentos de Ciencias de la Computación. Estos fundamentos proporcionan el andamiaje necesario para comprender y aplicar los conceptos que aquí se presentan. Este no es un impedimento, sino más bien un trampolín para científicos de cualquier campo que deseen adentrarse en la causalidad de los sistemas que observan y analizan. El lenguaje Python será nuestro aliado en este viaje. Se espera que los lectores tengan un cono- cimiento básico-intermedio de Python (programación orientada a objetos, manejo de librerías, estructuras de datos, procesamiento y visualización de datos), ya que nos apoyaremos en la librería PyBDM, una herramienta valiosa que puede simplificar y potenciar la implementación de la Com- plejidad Algorítmica en sus investigaciones. También usaremos otras librerías tales, como Numpy, Matplotlib y Networkx. Descripción : This book is more than a conventional guide; it is an invitation to explore Algorithmic Complexity Theory as a transformative tool for scientists from diverse disciplines. It is not a textbook that seeks to dive into the deepest details of the methodology, but rather a practical compass for those who wish to incorporate this powerful perspective into their research. To fully benefit from this work, a basic understanding of classical probability theory, mathematical structures, graph theory, and the basics of computer science is assumed. These foundations provide the necessary scaffolding to understand and apply the concepts presented here. This is not an impediment, but rather a springboard for scientists from any field who wish to delve into the causality of the systems they observe and analyze. The Python language will be our ally on this journey. Readers are expected to have a basic-intermediate knowledge of Python (object-oriented programming, library management, data structures, data processing, and visualization), as we will rely on the PyBDM library, a valuable tool that can simplify and enhance the implementation of Algorithmic Complexity in your research. We will also use other libraries such as Numpy, Matplotlib, and Networkx.

2024-04-12T00:00:00Z http://ricaxcan.uaz.edu.mx/jspui/handle/20.500.11845/926 2022-10-18T19:29:15Z 2018-01-01T00:00:00Z

Título : The Tesla Currents in Electrodynamics Authors: Chubykalo, Andrew; Kuligin, Viktor Resumen : The paper theoretically shows that the Maxwell equations in the Lorentz gauge deal with not only inertial charged particles, but also charged particles that do not have inertia (virtual charges). Virtual charges appear on the surface of metals. Their movement is the currents of Tesla. Experiments confirming their existence are presented, and some features that reveal them. The influence of virtual currents on the process of transfer of conduction electrons in p-n junctions of semiconductor devices is especially interesting. The results obtained can change our understanding of phenomena in the microcosm.

2018-01-01T00:00:00Z http://ricaxcan.uaz.edu.mx/jspui/handle/20.500.11845/925 2020-04-21T18:14:37Z 2019-02-01T00:00:00Z

Título : International journal of engineering sciences & research technology , The postulate of the equivalence of masses or the law of their proportionality? Authors: Chubykalo, Andrew; Espinoza, Augusto; Kuligin, Viktor Resumen : The main sources of GTR problems are analyzed. First, physicists and geometers in explaining phenomena do not take into account the simultaneous existence of two spaces (linear space-time and curvilinear space-time). Secondly, it is shown that the initial postulate on the equivalence of inertial and gravitational masses is erroneous from the point of view of philosophy and physics.Moreover, experimental testing of the hypothesis is difficult because of the lack of accuracy of the measuring devices. It is shown that gravity can be considered as a quadratic effect of electrodynamics. The postulate on the equivalence of inertial and gravitational masses must be replaced by the law of proportionality of the inertial mass of the body and its gravitational charge. The new approach fits in perfectly with the idea of J. Thomson on the electromagnetic nature of material bodies.

2019-02-01T00:00:00Z http://ricaxcan.uaz.edu.mx/jspui/handle/20.500.11845/919 2022-10-19T15:15:08Z 2019-02-01T00:00:00Z

Título : Maxwell’s error and its consequences for physics Authors: Chubykalo, Andrew; Espinoza, Augusto; Kuligin, Viktor; Korneva, Maria Resumen : The analysis of errors in the theories of modern physics led us to an important conclusion. There are initial errors, which then “generate” a spectrum of sec-ondary errors (erroneous consequences). We found an error made by Maxwell in the mathematical formulation of Faraday studies. In summarizing the experiments, Faraday Maxwell “lost” instantaneous action at a distance. The paper presents a proof and considers some consequences for physical theories. For example, we must consider the charge fields and the fields of electromagnetic waves as independent fields having different (mutually exclusive) properties.

2019-02-01T00:00:00Z