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Fundamental connections in differential geometry : quantum field theory, electromagnetism, chemistry and fluid mechanics

dc.contributor.authorZabadal, Jorge Rodolfo Silvapt_BR
dc.contributor.authorStaudt, Edersonpt_BR
dc.contributor.authorMarinho, Ádneipt_BR
dc.contributor.authorRibeiro, Vinicius Gadispt_BR
dc.contributor.authorSchramm, Marcelopt_BR
dc.date.accessioned2023-09-12T03:34:12Zpt_BR
dc.date.issued2023pt_BR
dc.identifier.issn2333-9721pt_BR
dc.identifier.urihttp://hdl.handle.net/10183/264426pt_BR
dc.description.abstractThis work presents novel hydrodynamic formulations that reconcile the continuum hypothesis with the emergence of electromagnetic interactions among molecules from fundamental principles. Two models are proposed: a relativistic version of the Navier-Stokes equations derived from commutation relations, and a Helmholtz-like system obtained by applying the Hodge operator to the extended Navier-Stokes equations. Preliminary analysis suggests that the second model, with its nonlinear terms serving as a generalized current, can reproduce microscopic quantum effects. It shows promise for generating self-consistent field equations via Bäcklund transformations, remaining valid across all scales despite the breakdown of the continuum hypothesis.en
dc.format.mimetypeapplication/pdfpt_BR
dc.language.isoengpt_BR
dc.relation.ispartofOpen Access Library Journal. [British Virgin Islands, UK]. Vol. 10, n. 9 (September 2023), 15 p.pt_BR
dc.rightsOpen Accessen
dc.subjectGeometria diferencialpt_BR
dc.subjectCommutation relationsen
dc.subjectExtended Navier-Stokes equationsen
dc.subjectTeoria quantica de campospt_BR
dc.subjectExtended Helmholtz equationsen
dc.subjectEletromagnetismopt_BR
dc.subjectInteraction termsen
dc.subjectQuantum behavioren
dc.titleFundamental connections in differential geometry : quantum field theory, electromagnetism, chemistry and fluid mechanicspt_BR
dc.typeArtigo de periódicopt_BR
dc.identifier.nrb001177086pt_BR
dc.type.originEstrangeiropt_BR


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