Wikipedia:Reference desk/Archives/Mathematics/2010 January 23
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January 23
editFinding a surface on which integrals of multiple functions are 0
editGiven a set of N linearly independent functions on some bounded simply-conected 2D surface , under what conditions does there exist another surface on which the integrals of all are 0?
does not need to be connected.
I wrote a simple program to find given , and the results indicate that it is sufficient that all are continuous functions that change sign somewhere on . I know this is not a necessary condition, but I am most interested in knowing if this condition is indeed sufficient. 83.134.167.153 (talk) 08:32, 23 January 2010 (UTC)
- Not sure what you're up to but it sounds like you want to look at Orthogonal functions. Dmcq (talk) 15:57, 23 January 2010 (UTC)
- I don't think just changing sign is sufficient. For example if f1 is strictly greater than f2, then it won't work. Rckrone (talk) 17:30, 23 January 2010 (UTC)
- By the Lyapunov convexity theorem the set is a closed convex set in , and (in fact, as a consequence) the same holds if you also prescribe or for a given number c. Therefore, if you are ok with a measurable subset s of S instead of an open set s, you have the following necessary and sufficient condition: there exists such a measurable subset s, say with if and only if there are measurable sets with such that some convex combination of the vectors in vanishes. If you really need s to be a surface (that is, an open subset of S since S itself is a surface) then you need the analogous Lyapunov convexity theorem, that I think is still true and existing somewhere there out, especially if are continuous. pma. --84.220.118.69 (talk) 18:17, 24 January 2010 (UTC)