GAUSS CONSTRAINT AS A FUNCTION OF ACCELERATION AND VELOCITY

GAUSS CONSTRAINT AS A FUNCTION OF ACCELERATION AND VELOCITY

The motion of a non-holonomic rheonomic system of N material points is considered as the motion of a constrained representative point in the 3N-dimensional euclidian space. Starting from the condition of extremality of the Gauss constraint, treated as a function not only of the acceleration, but als...

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Bibliographic Details
Published in:Bulletin de l'Académie serbe des sciences, Classe des sciences mathématiques et naturelles. Sciences mathématiques no. 17; pp. 27 - 32
Main Authors: LUKAČEVIĆ, MIRJANA M., ČOVIĆ, V. M.
Format: Journal Article
Language:English
Published: Académie Serbe des Sciences et des Arts 01-01-1989
Subjects:
Differential equations
Kinetics
Mathematical functions
Mathematical vectors
Mechanical systems
Tensors
Velocity
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Summary:The motion of a non-holonomic rheonomic system of N material points is considered as the motion of a constrained representative point in the 3N-dimensional euclidian space. Starting from the condition of extremality of the Gauss constraint, treated as a function not only of the acceleration, but also of the velocity of the representative point, one obtains the relation from which follow the differential equations of system's motion and the reactions of the ideal constraints to which this motion is subject. Finally, one concludes that the reactions of the ideal constraints of the mechanical system can be explicitly found from the stationarity condition of the Gauss constraint only using a mode of variation more free than the one applied in Gauss principle, i. e., substituing the Gauss mode of variation by the Jourdain's one.
ISSN:0561-7332
2406-0909