Given a set of n functions f1, ..., fn, the Wronskian W(f1, ..., fn) is given by:
That is, it is the determinant of the matrix constructed by placing the functions in the first row, the first derivative of each function in the second row, and so on through the n-1 derivative, thus forming a square matrix.
The Wronskian can be used to determine whether the set of functions is linearly independent. If the Wronskian is non-zero everywhere in a region, then the functions are linearly independent in that region.
There is a sense in which the Wronskian of a n-th order linear differential equation is its n-th exterior power. Of course for that idea to be implemented one must be working with some formulation in which differential equations are sufficiently like vector spaces: for example in the language of vector bundles carrying a connection.Abstract definition