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Title: Solve functional equation involving a limit. Post by Aryabhatta on Aug 14th, 2004, 10:55am Find all functions f which satisfy the following: 1) f : [0,1] [to] [bbr] such that Limit x [to] t f(x) = g(t) exists [forall] t [in] [0,1] 2) f(x) + g(x) = x [forall] x [in] [0,1]. |
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Title: Re: Solve functional equation involving a limit. Post by Aryabhatta on Aug 16th, 2004, 6:29pm Hint: [hide] f(x) = x/2 is the only solution. [/hide] |
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Title: Re: Solve functional equation involving a limit. Post by Eigenray on Aug 16th, 2004, 9:45pm Fix t [in] [0,1], and let [epsilon] > 0. There exists [delta] > 0 such that for | t - x | < [delta], | g(t) - f(x) | < [epsilon]. It follows that for any such x, | g(t) - g(x) | [le] [epsilon]. Therefore g is continuous. Since f(x) = x - g(x) is continuous, we must have g(t) = f(t), so f(x) = g(x) = x/2. |
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Title: Re: Solve functional equation involving a limit. Post by Aryabhatta on Aug 16th, 2004, 10:24pm on 08/16/04 at 21:45:42, Eigenray wrote:
Right! Well done. It can be shown that g is a continuous function. To clarify Eigenray's point: Let h(z) = |g(t) - f(z)| for |t - z | < [delta]. We have that h(z) < [epsilon]. Taking limits as z [to] x, we get |g(t) - g(x)| [le] [epsilon]. It can be shown that any f which has a limit at every point has a countable number of discontinuities. (Could be zero or even finite) A classical example of such a function is the "ruler" function (or dirichlet function, dont know which) f : (0,1]-> [bbr] f(x) = 0 if x is irrational f(p/q) = 1/q where p/q is in lowest terms. It can be shown that f is continuous at each irrational, discontinuous at each rational and Limit of f at each point is 0. |
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