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For $A$-modules and homomorphisms $0\to M′\stackrel{u}{\to}M\stackrel{v}{\to}M′′\to 0$ is exact iff for all A-modules N, the sequence

$0 \to Hom(M′′,N)\stackrel{\bar{v}}{\to} Hom(M,N)\stackrel{\bar{u}}{\to} Hom(M′,N)$ is exact.

How $\bar{u}$ and $\bar{v}$ are defined ? How do I prove that the sequence is exact at Hom(M′′,N) and Hom(M′,N)?

thanks for any help or hints

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    $\bar v$ maps a $\phi:M''\to N$ to the composition $v\cdot \phi:M\to N$.2012-11-10
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    thats wrong it should map it to ϕ . v2012-11-12
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    The claim is wrong. Correct and a trivial consequence of the universal properties is the following: $M' \to M \to M'' \to 0$ is exact iff for all $N$ we have that $0 \to \hom(M'',N) \to \hom(M,N) \to \hom(M',N)$ is exact.2012-11-13
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    @navigetor23: Unless I am mistaken, this is asking about the sequence at a different point than the other ($\mathrm{Hom}(M,N)$ instead of $\mathrm{Hom}(M'',N)$ and $\mathrm{Hom}(M',N)$).2012-11-13

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