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Lagrangian Dynamics of the Musakhail Aether Dynamical ‎Lagrangian

Journal: HyperScience International Journal (HIJ)

Volume/Issue: 6(1), 2026 | Pages: 13-18

ISSN: 2821-3300 | DOI: https://doi.org/10.55672/hij2026pp13-18

Abstract

This work extends previous investigations into the relationship between the Einsteinian ‎Hamiltonian formulation and the Musakhail aether-based Lagrangian description of ‎dynamics. While earlier studies established their simultaneous role in the Newtonian-‎Einsteinian framework, the present paper focuses specifically on a formal Lagrangian ‎dynamical analysis in order to derive the corresponding equation of motion. Within the ‎proposed framework, the resulting dynamics suggest a correspondence in which the ‎classical relation F=ma transitions naturally toward the relativistic energy expression E=‎mc^2, interpreted here through the restoration of Newtonian behavior during the so-called ‎Reverse Higgs process. In this regime, the effective mass remains constant (m=m_e ) ‎rather than velocity-dependent, permitting a force-based description of particle-wave ‎interaction. The analysis further introduces a rotating Einstein energy vector derived from ‎the invariant relation E^2=(pc)^2+(m_0 c^2 )^2, which is employed to describe the ‎cyclic interaction between fermionic constituents and electromagnetic wave structure. This ‎approach yields a dual interpretative framework in which either photon energy extraction or ‎spin measurement may occur, depending on the observational configuration. The ‎formalism also explores a complex representation in which the orthogonal axis is treated as ‎imaginary, producing a geometrical interpretation associated with oscillatory spin states of ‎fermions (±1/2) and photons (0,±1). The resulting model suggests an underlying ‎symmetry between fermionic and bosonic spin states within the proposed aether-‎dynamical environment, providing a phenomenological bridge between classical force ‎dynamics and relativistic energy relations.‎

Keywords

Lagrangian dynamics; force-based gravitation; Reverse Higgs process; electromagnetic four-vector formalism

License: CC BY-NC 4.0 | https://creativecommons.org/licenses/by-nc/4.0/