Title:	Lagrange and Appell-Gibbs approaches in problems of non-holonomic dynamic systems
Authors:	Náprstek, J. Fischer, C.
Citation:	Computational mechanics 2018: book of extended abstracts: 34th conference with international participation, p. 71-72.
Issue Date:	2018
Publisher:	Západočeská univerzita v Plzni
Document type:	konferenční příspěvek conferenceObject
URI:	http://hdl.handle.net/11025/30813 https://www.zcu.cz/export/sites/zcu/pracoviste/vyd/online/FAV_Computational_Mechanics_2018.pdf
ISBN:	978-80-261-0819-1
Keywords:	ne-holonomické dynamické systémy;Gibbs-Applovy rovnice;Lagrangeovy rovnice
Keywords in different language:	non-holonomic dynamic systems;Gibbs-Appell equations;Lagrange equations
Abstract in different language:	Hamiltonian functional and relevant Lagrange equation system are popular tools in investigation of dynamic systems. Various generalizations enable to extend the class of problems concerned slightly beyond conventional limits of a Hamiltonian system. This strategy is very effective particularly concerning 2D and simpler 3D systems. However, the governing differential systems of most non-holonomic 3D systems suffer from inadequate complexity, when deduced using this way. Any analytical investigation of such a governing system is rather impossible and its physical interpretation can be multivalent. For easier analysis particularly of systems with nonholonomic constraints the Appell-Gibbs approach seems to be more effective providing more transparent governing systems.
Rights:	Copyright © 2018 University of West Bohemia, Plzeň, Czech Republic
Appears in Collections:	Computational mechanics 2018 Computational mechanics 2018

Items in DSpace are protected by copyright, with all rights reserved, unless otherwise indicated.