NEW CELESTIAL MECHANICS
Madrid, March 1, 2026
The book New Celestial Mechanics has been published, a work that develops and substantiates the dynamics of the universe in accordance with the principles of the Theory of Dynamic Interactions (TDI), offering a systematic reinterpretation of rotational dynamics.
Written by Gabriel Barceló Rico-Avello and Guzmán López Barceló, the text proposes an extended formulation of the dynamic behavior of rotating bodies subjected to non-coaxial actions. The work alternates physical intuition, mathematical formalization, and experimental results, articulating a coherent progression from the geometry of the problem to the equations that describe its evolution.
The book analyzes the kinematics of systems combining translation and intrinsic rotation, examining the superposition of velocity fields —such as the intrinsic rotational field— and the effect of non-coaxial actions on the center of mass and on the material points of the system.
It also presents a dynamic formulation introducing generalized magnitudes and variables to track the evolution of energy and angular momentum in processes of orbiting, translation, and rotation. Readers will find a progressive exposition connecting geometric description with the corresponding mathematical formulation.
The work updates and systematizes the content of the TDI, incorporating in appendices articles and communications published after the two volumes of New Paradigm in Physics (2017–2018), in which this theoretical proposal was initially developed.
The historical and scientific background of the project was described in the article:
Research Project on Rotational Dynamics. Orbiting and Rotation of Celestial Bodies, published in London Journal of Research in Science: Natural & Formal (Vol. 25, LJP Copyright ID: 925610, Print ISSN: 2631-8490, Online ISSN: 2631-8504), authored by Gabriel Barceló Rico-Avello.
That work compiles the results of more than four decades of private research conducted by Advanced Dynamics in the field of rotational dynamics.
SCOPE OF THE THEORETICAL PROPOSAL
The book describes experiments carried out by the research team analyzing the dynamic response of rotating rigid bodies subjected to new non-coaxial excitations. According to the central hypothesis of the TDI, the interaction between intrinsic rotation and new actions may generate effective dynamic terms capable of modifying the system’s trajectory.
The TDI proposes that when a body with intrinsic angular momentum is subjected to a non-coaxial action, its evolution is not limited to a simple superposition of motions, but may manifest through induced precessions, helicoidal trajectories, or characteristic orbital paths.
Among the applications explored are:
⦁ Gyroscopic dynamics
⦁ Boomerang flight
⦁ Behavior of rotating systems in engineering
⦁ Reinterpretation of certain observational phenomena in planetary dynamics
The TDI is not presented as a denial of classical mechanics, but as a formal extension within the specific domain of systems with intrinsic rotation subjected to non-coaxial excitations.
PROPOSED FORMALISM
In the Newton–Euler formalism, translation and rotation are treated as independent magnitudes. The TDI proposes reformulating rotation as a magnitude distributed spatially and temporally, introducing coupling terms between angular and translational variables.
It is hypothesized that in systems with constant intrinsic rotation subjected to non-coaxial excitations, effective acceleration terms may arise proportional to the vector product between angular velocity and translational velocity:
Ω × v
where:
⦁ Ω: intrinsic angular velocity
⦁ v: translational velocity
Within this framework, the translational dynamic equation would adopt a generalized form:
If Ω = 0, the classical Newtonian case is recovered as a limiting condition.
Geometrically, the term Ω × v generates an acceleration orthogonal to both magnitudes, potentially leading to curved trajectories without the explicit introduction of additional central forces.
ARTIFICIAL INTELLIGENCE APPLIED TO THE SYSTEMATIZATION OF TDI
Following the drafting of the new volume, Guzmán López Barceló promoted a project integrating artificial intelligence tools for structural review and internal consistency verification of the text.
Through systems based on generative models, semantic and structural analysis processes were conducted to detect inconsistencies, redundancies, or possible formal contradictions in the exposition of the theory.
Guzmán López Barceló is a professional specialized in digital technology integration, automation, and AI-based system design, combining experience in 3D development, applied programming, and generative modeling. His contribution focused on structuring, optimizing, and digitally systematizing the technical content of the project, contributing to its formal organization.
FOREWORD
The book’s foreword was written by engineer Arturo Rodríguez Palenzuela, author of Theory of Rotational Fields (Amazon, 2022), a work developing the mathematical formulation associated with the TDI.
In his text, he highlights the role of intrinsic angular momentum as a central element in understanding systems subjected to non-coaxial interactions, emphasizing the structural coherence of the theoretical development and its potential applicability in various scientific and technological fields.
CONCLUSION
New Celestial Mechanics proposes a conceptual revision of the dynamics of rotating bodies subjected to non-coaxial excitations, offering an expanded formal framework and proposing experimentally testable scenarios.
The TDI presents an alternative perspective for analyzing the interaction between rotation, energy, and direction of motion, with possible implications in engineering, rotating system dynamics, and the study of celestial phenomena.
For further information:
⦁ http://www.advanceddynamics.net/
⦁ http://www.dinamicafundacion.com/
⦁ http://www.tendencias21.net/fisica/
⦁ https://club.tendencias21.net/mundo/
