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Have I got this right -

$$ f(t,y) = 1 + t \sin(ty),\quad 0 \leq t \leq 2. $$

Here's as far as I have gotten -

$|f(t, u) - f(t,y)|$

$= |1 + t\sin(tu) - 1 - t\sin(tv)|$

$= t\cdot |\sin(tu) - \sin(tv)|$

$= t\cdot|\sin(tu) - \sin(tv)|\leq t\cdot|tu - tv|$

$= t^2|u-v|$

Is the inequality allowed?

So the function is Lipschitz with $L = 4$. It's the dropping the $\sin$ part I am not sure about.

1 Answers 1

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Your step would be allowed if you knew $|\sin(x) - \sin(y)| \le |x-y|$ to be true, i.e. if you knew that the function $\sin$ is $1$-Lipschitz.

  • 0
    After googling a bit I read that $sin$ is Lipschtitz with $L = 2$. So does that mean I should have a final answer in my question of $L = 8$ instead of $L = 4$?2012-11-17
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    Curious to know which website indicate Lipschitz = 2 for the sine.2012-11-17
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    I found it here - http://uk.answers.yahoo.com/question/index?qid=20090514030319AANZ1Uy2012-11-17
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    @Did Yahoo! Answers is a veritable fountain of wisdom. "The sine function takes values from 1 to -1 so no matter what inputs you throw at this beast, the output will never vary by more then 2! So if you take your filter to be 2 you are guaranteed that | f(x) - f(y) | ≤ 2. Thus, sin(x) is a Lipschitz function."2013-02-24
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    Just to be sure everybody gets it right (yes, I have seen worse on MSE): @5pm's first sentence is a JOKE and Y!A quote is absurd.2013-02-24