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Let $X:=C[0,1]$ is an metric space and $d(x,y)=\sup_{t\in[0,1]} |x(t)-y(t)|$ for $x,y\in X$. Then is $\bar B(0,1)$ closed and compact in $X$? I can prove that it is closed set by proving the complement is open. I think that it shouldn't be a compact set but not sure how to prove it. I know the definition of a compact set, that's any infinite open cover of a set has a finite subcover of that set.

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    See here for more detail: http://math.stackexchange.com/questions/207445/for-infinite-compact-set-x-the-closed-unit-ball-of-cx-will-not-be-compact http://math.stackexchange.com/questions/217757/unit-sphere-not-compact-in-luenberger-page-40-opt-by-vector-space-methods2012-10-22

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