A relation that connects the Wronskian of a system of solutions and the coefficients of an ordinary linear differential equation.
Let be an arbitrary system of solutions of a homogeneous system of linear first-order equations
with an operator that is continuous on an interval , and let
be the Wronskian of this system of solutions. The Liouville–Ostrogradski formula has the form
The geometrical meaning of (4) (or ) is that as a result of the transformation the oriented volume of any body is increased by a factor .
If one considers a linear homogeneous -th order equation
with continuous coefficients on an interval , and if for , then the Liouville–Ostrogradski formula is the equality
where is the Wronskian of the system of solutions of (5). The Liouville–Ostrogradski formulas , (6) are ordinarily used in the case when the system of solutions in question is fundamental (cf. Fundamental system of solutions). For example, formula (6) makes it possible to find by quadratures the general solution of a linear homogeneous equation of the second order if one knows one particular non-trivial solution of it.
is sometimes called the Jacobi formula).
The Liouville–Ostrogradski formula (2) can be generalized to a non-linear system
under the assumption that the vector-valued function
and the matrix are continuous. If is a set of finite measure and the image of this set under the linear mapping , where is the Cauchy operator of the system (7), has measure , then
This implies Liouville's theorem on the conservation of phase volume, which has important applications in the theory of dynamical systems and in statistical mechanics, mathematical problems in: The flow of a smooth autonomous system
does not change the volume of any body in the phase space if and only if for all ; in particular, the phase volume is conserved by the flow of a Hamiltonian system.
|||N.H. Abel, "Ueber einige bestimmte Integrale" J. Reine Angew. Math. , 2 (1827) pp. 22–30|
|||J. Liouville, J. Math. Pures Appl. , 3 (1838) pp. 342–349|
|||M.V. Ostrogradskii, , Collected works , 3 , Kiev (1961) pp. 124–126 (In Russian)|
|||C.G.J. Jacobi, "Gesammelte Werke" , 4 , Chelsea, reprint (1969)|
|||L.S. Pontryagin, "Ordinary differential equations" , Addison-Wesley (1962) (Translated from Russian)|
|||V.I. Arnol'd, "Ordinary differential equations" , M.I.T. (1973) (Translated from Russian)|
|[a1]||P. Hartman, "Ordinary differential equations" , Birkhäuser (1982) pp. 220–227|
Liouville–Ostrogradski formula. Encyclopedia of Mathematics. URL: http://www.encyclopediaofmath.org/index.php?title=Liouville%E2%80%93Ostrogradski_formula&oldid=22764