I'm having trouble with this problem from an old analysis qual: Find a function $f$ such that for $p\in (1,\infty)$, $f$ is in $L^p(\mathbb{R})$ only when $p=4$.
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Can you find a function only in $L^p(\Bbb R)$ for $p\ge 4$? – Quang Hoang Dec 13 '14 at 22:47
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I'm having trouble there too. I think once I get that the rest shouldn't be too hard. I can do p>4, but not sure about greater or equal to 4. Maybe use log somehow? – algebro Dec 13 '14 at 22:59
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1Related (but not the same): http://math.stackexchange.com/questions/1040873/an-example-of-a-function-in-l10-1-which-is-not-in-lp0-1-for-any-p1/ – PhoemueX Dec 13 '14 at 23:40
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Hint: When is $$ f(x) = \frac{1}{|x|^\alpha} $$ $p$-integrable on $(-1,1)$? On $\mathbb{R}-(-1,1)$?
General advice: To control a function's integral norms you generally need to control two things: variance (e.g. oscillation, singularities) and spread (e.g. decay). Higher $p$-norms put more weight on variance and less weight on spread; this trade-off is always present. One way to find functions in a specified $L^p$ is to determine the highest variance and the lowest spread the $p$-norm allows. For a function that exhibits exactly this variance and spread, moving upwards in $p$ weights variance too far, and moving downwards in $p$ weights spread too far. This is one way to think of the hint: pick two values of $\alpha$ to cherry-pick the variance of $f$ at the singularity and the spread of $f$ away from it.
Gyu Eun Lee
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