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广义谎言理论与应用杂志

Applications of Generalized Lie Theory in Modern Physics and Geometry

Abstract

Comelli Achim*

Generalized Lie theory, an extension of classical Lie theory, has become a pivotal tool in modern physics and geometry, opening new avenues for understanding complex symmetries, structures, and dynamics that extend beyond the confines of linearity. The classical theory, centered on Lie groups and Lie algebras, has long provided a powerful framework for analyzing continuous symmetries in both mathematics and physics. However, as the scope of these disciplines has expanded to include increasingly complex and nonlinear phenomena, the need for a more generalized approach has led to the development of generalized Lie theory. This advanced mathematical framework has profound implications for modern physics and geometry, enabling the exploration of new physical theories, the study of intricate geometric structures, and the unification of disparate areas of mathematics and physics.

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