Momentonics is introduced as a scientific framework dedicated to the systematic study of momentum as a central organizing principle in physics and engineering. While momentum is traditionally treated as a conserved quantity within established mechanical theories, Momentonics explores its broader role as a framework for describing, analyzing, transferring, recovering, organizing, and utilizing dynamical behavior across physical systems. The discipline does not propose new laws of nature and remains fully compatible with Newtonian mechanics, analytical mechanics, relativity, and established conservation principles. Instead, it offers a complementary perspective in which momentum serves as a unifying analytical lens capable of connecting diverse phenomena across theoretical and applied domains. The framework introduces several foundational concepts, including Dynamic Frames, Momentum Identity, and a family of quantitative momentum-centered metrics designed to characterize momentum generation, transfer, recovery, utilization, and efficiency. It further establishes a structured disciplinary organization comprising both fundamental and applied branches, together with a research program intended to guide future theoretical, experimental, computational, and engineering investigations. Momentonics is proposed not as a replacement for existing physics, but as a momentum-centered framework for organizing physical understanding and fostering interdisciplinary research. Its objective is to provide a common language through which momentum-related phenomena may be studied systematically across scales, from engineered systems to large-scale physical structures. Keywords Momentum Mechanics Dynamic Systems Conservation Laws Momentum Transfer Momentum Identity Reference Frames Engineering Metrics Applied Physics Scientific Framework
Alvaro Fabian BRICIO ARZUBIDE (Sat,) studied this question.