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Suppose $f_n$ is as sequence of functions in $L^1[0,1]$ such that $f_n$ converges pointwise a.e. to $f\in L^1[0,1]$. Suppose also that $\int \vert f_n\vert \rightarrow \int \vert f\vert$. Is it true that $f_n$ converges to $f$ in the $L^1$ norm?


From Javaman's comment below: $|f_n-f|\leqslant |f_n|+|f|$. So DCT applies. Since $f_n\rightarrow f$ a.e. we have $\lim_n\int |f_n-f|=0.$ i.e $\Vert f_n-f\Vert \rightarrow 0.$

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    I haven't written it out to check details, but note that $|f_n - f| \leq |f_n| + |f|$ so you can apply Dominated Convergence Theorem. Then, $\lim \int |f_n - f| = \int \lim |f_n - f|$.2011-11-17
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    @JavaMan: Is what I've done right?2011-11-18
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    *So DCT applies* ... what is the dominating function you want to use?2011-11-18
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    @GEdgar: Would you rather I use Fatou's Lemma instead?2011-11-18

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