In differential calculus, the domain-straightening theorem states that, given a vector field on a manifold, there exist local coordinates such that in a neighborhood of a point where is nonzero. The theorem is also known as straightening out of a vector field.
The Frobenius theorem in differential geometry can be considered as a higher-dimensional generalization of this theorem.
It is clear that we only have to find such coordinates at 0 in . First we write where is some coordinate system at . Let . By linear change of coordinates, we can assume Let be the solution of the initial value problem and let
(and thus ) is smooth by smooth dependence on initial conditions in ordinary differential equations. It follows that
- ,
and, since , the differential is the identity at . Thus, is a coordinate system at . Finally, since , we have: and so
as required.
- Theorem B.7 in Camille Laurent-Gengoux, Anne Pichereau, Pol Vanhaecke. Poisson Structures, Springer, 2013.