Add to ORKGA geometric formulation of Classical Analytical Mechanics, especially suited to the study of non-holonomic systems is proposed. The argument involves a preliminary study of the geometry of the space of kinetic states of the system, followed by a revisitation of Chetaev's definition of virtual work, viewed here as a cornerstone for the implementation of the principle of determinism. Applications to ideal non-holonomic systems are explicitly worked out
Nonholonomic systems are a widespread topic in several scientific and commercial domains, including ...
International audienceSince its inception about 200 years ago, Lagrangian mechanics has been based u...
In this paper we derive a symplectic description for systems in continuum mechanics and a representa...
A geometric formulation of Classical Analytical Mechanics, especially suited to the study of non-hol...
We construct an operational formulation of classical mechanics without presupposing previous results...
summary:A unified geometric approach to nonholonomic constrained mechanical systems is applied to se...
International audienceThis paper deals with the foundations of analytical dynamics. It obtains the e...
International audienceThis paper deals with the foundations of analytical dynamics. It obtains the e...
Mechanics of non-holonomic systems gives a deep insight into the theory and applications of Analytic...
AbstractTwo approaches for the study of mechanical systems with non-holonomic constraints are presen...
Principle of virtual work subject to nonholonomic and rheonomous constraints1 Rapcsák, T.2 In the pa...
In the paper, it is shown that the principle of virtual work considered an axiom of mechanics by Lag...
Chapter 8 presented variational and energy principles for unconstrained dynamical system. This chapt...
The classical nonholonomic equations for a mechanical system subject to linear nonintegrable cons...
Abstract. The paper is concerned with non-holonomic mechanical systems, i.e. Lagrangian systems subj...
Nonholonomic systems are a widespread topic in several scientific and commercial domains, including ...
International audienceSince its inception about 200 years ago, Lagrangian mechanics has been based u...
In this paper we derive a symplectic description for systems in continuum mechanics and a representa...
A geometric formulation of Classical Analytical Mechanics, especially suited to the study of non-hol...
We construct an operational formulation of classical mechanics without presupposing previous results...
summary:A unified geometric approach to nonholonomic constrained mechanical systems is applied to se...
International audienceThis paper deals with the foundations of analytical dynamics. It obtains the e...
International audienceThis paper deals with the foundations of analytical dynamics. It obtains the e...
Mechanics of non-holonomic systems gives a deep insight into the theory and applications of Analytic...
AbstractTwo approaches for the study of mechanical systems with non-holonomic constraints are presen...
Principle of virtual work subject to nonholonomic and rheonomous constraints1 Rapcsák, T.2 In the pa...
In the paper, it is shown that the principle of virtual work considered an axiom of mechanics by Lag...
Chapter 8 presented variational and energy principles for unconstrained dynamical system. This chapt...
The classical nonholonomic equations for a mechanical system subject to linear nonintegrable cons...
Abstract. The paper is concerned with non-holonomic mechanical systems, i.e. Lagrangian systems subj...
Nonholonomic systems are a widespread topic in several scientific and commercial domains, including ...
International audienceSince its inception about 200 years ago, Lagrangian mechanics has been based u...
In this paper we derive a symplectic description for systems in continuum mechanics and a representa...