Minor style adjustment in Urysohn.
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\begin{lemma}[Urysohn's Lemma (LCH)]
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\begin{lemma}[Urysohn's Lemma (LCH)]
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\label{lemma:lch-urysohn}
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\label{lemma:lch-urysohn}
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Let $X$ be a LCH space, $K \subset X$ be compact, and $U \in \cn(K)$, then there exists $f \in C_c(X; [0, 1])$ such that $\supp{f} \subset U$.
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Let $X$ be a LCH space, $K \subset X$ be compact, and $U \in \cn(K)$, then there exists $F \in C_c(X; [0, 1])$ such that $\supp{F} \subset U$.
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\end{lemma}
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\end{lemma}
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\begin{proof}[Proof, {{\cite[Lemma 4.32]{Folland}}}. ]
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\begin{proof}[Proof, {{\cite[Lemma 4.32]{Folland}}}. ]
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By \autoref{lemma:lch-compact-neighbour}, there exists $V, W \in \cn^o(K)$ precompact such that
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By \autoref{lemma:lch-compact-neighbour}, there exists $V, W \in \cn^o(K)$ precompact such that
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