Helmholtz conditions and symmetries for the time dependent case of the inverse problem of the calculus of variations

Abstract

We present a reformulation of the inverse problem of the calculus of variations for time dependent systems of second order ordinary differential equations using the Fr\"olicher-Nijenhuis theory on the first jet bundle, J1π. We prove that a system of time dependent SODE, identified with a semispray S, is Lagrangian if and only if a special class, 1S(J1π), of semi-basic 1-forms is not empty. We provide global Helmholtz conditions to characterize the class 1S(J1π) of semi-basic 1-forms. Each such class contains the Poincar\'e-Cartan 1-form of some Lagrangian function. We prove that if there exists a semi-basic 1-form in 1S(J1π), which is not a Poincar\'e-Cartan 1-form, then it determines a dual symmetry and a first integral of the given system of SODE.