Difference between revisions of "Solution to number 1 Old Kiwi" - Rhea

Revision as of 09:01, 2 July 2008

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$\sup\limits_n\int_{\{|f_n|>M\}}|f_n|\leq\sup\limits_n\int_{(0,1)}|f_n-f|+\sup\limits_n\int_{\{|f_n|>M\}}|f|$

$Since \int_{(0,1)}|f_n-f|\to0(n\to\infty), \sup\limits_n\int_{(0,1)}|f_n-f|=0$

To show $\sup\limits_n\int_{\{|f_n|>M\}}|f_n|\to0(M\to\infty),$ it suffices to show that $\sup\limits_n\int_{\{|f_n|>M\}}|f|\to0(M\to\infty)$

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	<math>\sup\limits_n\int_{\{\|f_n\|>M\}}\|f_n\|\leq\sup\limits_n\int_{(0,1)}\|f_n-f\|+\sup\limits_n\int_{\{\|f_n\|>M\}}\|f\|</math>		<math>\sup\limits_n\int_{\{\|f_n\|>M\}}\|f_n\|\leq\sup\limits_n\int_{(0,1)}\|f_n-f\|+\sup\limits_n\int_{\{\|f_n\|>M\}}\|f\|</math>