AbstractWe discuss two generalizations of the inverse problem of the calculus of variations, one in which a given mechanical system can be brought into the form of Lagrangian equations with non-conservative forces of a generalized Rayleigh dissipation type, the other leading to Lagrangian equations with so-called gyroscopic forces. Our approach focusses primarily on obtaining coordinate-free conditions for the existence of a suitable non-singular multiplier matrix, which will lead to an equivalent representation of a given system of second-order equations as one of these Lagrangian systems with non-conservative forces
AbstractThis paper deals with the problem of the instability of an equilibrium, say (q = 0, q̇ = 0),...
The inverse problem for Lagrangian supermechanics is investi-gated. A set of necessary and sufficien...
The inverse problem of the calculus of variations asks for necessary and sufficient conditions that ...
We discuss two generalizations of the inverse problem of the calculus of variations, one in which a ...
AbstractWe discuss two generalizations of the inverse problem of the calculus of variations, one in ...
A comprehensive study is reported herein for the evaluation of Lagrangian functions for linear syste...
In this work the inverse problem of the variational calculus for systems of differential equations o...
In this work the inverse problem of the variational calculus for systems of differential equations o...
We show how the ambiguity of Lagrangjan and Hamiltonian descriptions for conservative systems gives ...
This book provides a concise description of the current status of a fascinating scientific problem -...
We give a coordinate-independent version of the smallest set of necessary and sufficient conditions ...
In this paper we continue analyzing the possible applications of nonstandard analysis to variational...
This paper deals with the inverse problem of finding a suitable integrand so that upon the use of th...
We deal with the problem of determining the existence and uniqueness of Lagrangians for systems of n...
This paper deals with the problem of the instability of an equilibrium, say (q = 0, q = 0), of a lag...
AbstractThis paper deals with the problem of the instability of an equilibrium, say (q = 0, q̇ = 0),...
The inverse problem for Lagrangian supermechanics is investi-gated. A set of necessary and sufficien...
The inverse problem of the calculus of variations asks for necessary and sufficient conditions that ...
We discuss two generalizations of the inverse problem of the calculus of variations, one in which a ...
AbstractWe discuss two generalizations of the inverse problem of the calculus of variations, one in ...
A comprehensive study is reported herein for the evaluation of Lagrangian functions for linear syste...
In this work the inverse problem of the variational calculus for systems of differential equations o...
In this work the inverse problem of the variational calculus for systems of differential equations o...
We show how the ambiguity of Lagrangjan and Hamiltonian descriptions for conservative systems gives ...
This book provides a concise description of the current status of a fascinating scientific problem -...
We give a coordinate-independent version of the smallest set of necessary and sufficient conditions ...
In this paper we continue analyzing the possible applications of nonstandard analysis to variational...
This paper deals with the inverse problem of finding a suitable integrand so that upon the use of th...
We deal with the problem of determining the existence and uniqueness of Lagrangians for systems of n...
This paper deals with the problem of the instability of an equilibrium, say (q = 0, q = 0), of a lag...
AbstractThis paper deals with the problem of the instability of an equilibrium, say (q = 0, q̇ = 0),...
The inverse problem for Lagrangian supermechanics is investi-gated. A set of necessary and sufficien...
The inverse problem of the calculus of variations asks for necessary and sufficient conditions that ...