Revision as of 13:41, 11 July 2008 by Dvtran (Talk)

a/$ \mu(\{|f|>0\})>0 $, so we have

$ (\int_{X}|f|^{n})^{1/n} \leq (\mu(X)||f||_{\infty})^{1/n} $

Taking the limit of both side as $ n $ go to infinity, we get

$ \lim_{n\to \infty}||f||_{n} \leq ||f||_{\infty} $

Let $ M<||f||_{\infty} $, and $ E=\{|f|>M\} $, then

$ \lim_{n\to \infty}||f||_{n} \geq \lim_{n\to \infty}(\int_{E}|f|^{n})^{1/n} \geq (\mu(E)M^{n})^{1/n} $

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Ryne Rayburn