Difference between revisions of "Completely-integrable differential equation"
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| − | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> | + | <table><TR><TD valign="top">[1]</TD> <TD valign="top"> G. Frobenius, "Ueber das Pfaffsche Problem" ''J. Reine Angew. Math.'' , '''82''' (1877) pp. 230–315</TD></TR><TR><TD valign="top">[2]</TD> <TD valign="top"> V.V. Nemytskii, "On the orbit theory of general dynamic systems" ''Mat. Sb.'' , '''23 (65)''' : 2 (1948) pp. 161–186 (In Russian)</TD></TR><TR><TD valign="top">[3]</TD> <TD valign="top"> S.P. Novikov, "Topology of foliations" ''Trans. Moscow Math. Soc.'' , '''14''' (1965) pp. 268–304 ''Trudy Moskov. Mat. Obshch.'' , '''14''' (1965) pp. 248–278 {{MR|0200938}} {{ZBL|0247.57006}} </TD></TR></table> |
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| − | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> | + | <table><TR><TD valign="top">[a1]</TD> <TD valign="top"> E. Cartan, "Les systèmes différentielles extérieurs et leur applications géométriques" , Hermann (1945)</TD></TR><TR><TD valign="top">[a2]</TD> <TD valign="top"> S. Kobayashi, K. Nomizu, "Foundations of differential geometry" , '''1–2''' , Interscience (1963–1969) {{MR|1393941}} {{MR|1393940}} {{MR|0238225}} {{MR|1533559}} {{MR|0152974}} {{ZBL|0526.53001}} {{ZBL|0508.53002}} {{ZBL|0175.48504}} {{ZBL|0119.37502}} </TD></TR></table> |
Revision as of 16:56, 15 April 2012
An equation of the form
 | (*) |
for which an 
-dimensional integral manifold passes through each point of a certain domain in the space 
. A necessary and sufficient condition for complete integrability of the differential equation (*) is the Frobenius condition 
, where 
is the symbol of the exterior product [1]. If 
, this condition has the form:
 |
 |
Instead of equation (*) the following system of equations is sometimes considered [2]:
 |
In this case the conditions of complete integrability assume the form:
 |
 |
 |
The family of integral manifolds of a completely-integrable differential equation is a foliation [3].
References
| [1] | G. Frobenius, "Ueber das Pfaffsche Problem" J. Reine Angew. Math. , 82 (1877) pp. 230–315 |
| [2] | V.V. Nemytskii, "On the orbit theory of general dynamic systems" Mat. Sb. , 23 (65) : 2 (1948) pp. 161–186 (In Russian) |
| [3] | S.P. Novikov, "Topology of foliations" Trans. Moscow Math. Soc. , 14 (1965) pp. 268–304 Trudy Moskov. Mat. Obshch. , 14 (1965) pp. 248–278 MR0200938 Zbl 0247.57006 |
Comments
The exterior product 
is also called the outer product.
An 
-dimensional submanifold 
of 
is an integral manifold of (*) if the restriction of 
to 
is zero; cf. also Pfaffian equation. Another (dual) way to formulate this is as follows. Let 
be an open subset where 
. For each 
let 
be the set of all (tangent) vectors 
at 
such that 
. Then 
is an 
-dimensional subspace and the 
define a distribution on 
. An integral manifold 
of 
(or of the equation 
) is now an 
-dimensional submanifold of 
such that 
for all 
. A distribution 
on 
is called involutive if for all vector fields 
on 
such that 
for all 
also 
for all 
. The Frobenius integrability condition 
is equivalent in these terms to the condition that the distribution defined by 
be involutive. All this generalizes to systems of equations 
, 
; cf. Integrable system.
The phase completely-integrable system (completely-integrable Hamiltonian system), completely-integrable Hamiltonian equation on an 
-dimensional manifold refers to a rather different property, viz. that of having 
(including the Hamiltonian (function) itself) integrals in involution; cf. Hamiltonian system.
References
| [a1] | E. Cartan, "Les systèmes différentielles extérieurs et leur applications géométriques" , Hermann (1945) |
| [a2] | S. Kobayashi, K. Nomizu, "Foundations of differential geometry" , 1–2 , Interscience (1963–1969) MR1393941 MR1393940 MR0238225 MR1533559 MR0152974 Zbl 0526.53001 Zbl 0508.53002 Zbl 0175.48504 Zbl 0119.37502 |
Completely-integrable differential equation. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Completely-integrable_differential_equation&oldid=24402