Add to ORKGA new treatment of kinematical constraints and potential energies arising in the dynamics of systems of rigid bodies and particles is presented which is suited to Newtonian and Lagrangian formulations. Its novel feature is the imposing of invariance requirements on the constraint functions and potential energy functions. These requirements are extensively used in continuum mechanics and, in the present context, one finds certain generalizations of Newton's third law of motion and an elucidation of the nature of constraint forces and moments. One motivation for such a treatment can be found by considering approaches where invariance requirements are ignored. In contrast to the treatment presented in this paper, it is shown that this may...
We start by formulating geometrically the Newton's law for a classical free particle in terms of Ri...
Key words: dierential inclusion, hemivariational inequality, principle of least con-straints, princi...
summary:We start by formulating geometrically the Newton’s law for a classical free particle in term...
The equations of motion for a constrained multibody system are derived from a continuum mechanical p...
In this expository article, a simple concise treatment of Lagrange's prescription for constraint for...
In this expository article, a simple concise treatment of Lagrange's prescription for constraint for...
Abstract In this expository article, a simple concise treatment of Lagrange’s prescription for const...
Abstract In this expository article, a simple concise treatment of Lagrange’s prescription for const...
In this expository article, a simple concise treatment of Lagrange’s prescription for con-straint fo...
The idea of constrained particle dynamics is that our description of the system includes not only pa...
Practical multibody numerical models are typically composed by a set of bodies (rigid or deformable)...
Practical multibody numerical models are typically composed by a set of bodies (rigid or deformable)...
International audienceThis paper develops a new, simple, explicit equation of motion for general con...
International audienceThis paper develops a new, simple, explicit equation of motion for general con...
Chapter 8 presented variational and energy principles for unconstrained dynamical system. This chapt...
We start by formulating geometrically the Newton's law for a classical free particle in terms of Ri...
Key words: dierential inclusion, hemivariational inequality, principle of least con-straints, princi...
summary:We start by formulating geometrically the Newton’s law for a classical free particle in term...
The equations of motion for a constrained multibody system are derived from a continuum mechanical p...
In this expository article, a simple concise treatment of Lagrange's prescription for constraint for...
In this expository article, a simple concise treatment of Lagrange's prescription for constraint for...
Abstract In this expository article, a simple concise treatment of Lagrange’s prescription for const...
Abstract In this expository article, a simple concise treatment of Lagrange’s prescription for const...
In this expository article, a simple concise treatment of Lagrange’s prescription for con-straint fo...
The idea of constrained particle dynamics is that our description of the system includes not only pa...
Practical multibody numerical models are typically composed by a set of bodies (rigid or deformable)...
Practical multibody numerical models are typically composed by a set of bodies (rigid or deformable)...
International audienceThis paper develops a new, simple, explicit equation of motion for general con...
International audienceThis paper develops a new, simple, explicit equation of motion for general con...
Chapter 8 presented variational and energy principles for unconstrained dynamical system. This chapt...
We start by formulating geometrically the Newton's law for a classical free particle in terms of Ri...
Key words: dierential inclusion, hemivariational inequality, principle of least con-straints, princi...
summary:We start by formulating geometrically the Newton’s law for a classical free particle in term...