Fixed typos in the haar proof.
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@@ -45,7 +45,7 @@
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Let $G$ be a locally compact group and $f, h, g \in C_c^+(G)$, then:
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\begin{enumerate}
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\item If $g \ne 0$, then $(f: g) < \infty$.
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\item $(f, h: g) \le (h: g) + (h: g)$.
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\item $(f + h: g) \le (f: g) + (h: g)$.
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\item For each $\lambda \ge 0$, $(\lambda f: g) = \lambda(f: g)$.
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\item If $f \le h$, then $(f: g) \le (h: g)$.
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\item $(f: g) \le (f: h)(h: g)$.
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@@ -126,7 +126,7 @@
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\item For each $f \in C_c^+(G) \setminus \bracs{0}$, $I(f) \in [(h: f)^{-1}, (f: h)]$.
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\item For every $\lambda \ge 0$ and $f \in C_c^+(G)$, $I(\lambda f) = \lambda I(f)$.
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\item For any $x \in G$, $I(L_xf) = I(f)$.
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\item For each $f, f' \in C_c^+(G)$, $I(f + g) \le I(f) + I(g)$.
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\item For each $f, f' \in C_c^+(G)$, $I(f + f') \le I(f) + I(f')$.
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\end{enumerate}
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Let $f, f' \in C_c^+(G)$ and $\eps > 0$. By \autoref{lemma:haar-approx}, there exists $V \in \cn_G(1)$ such that for each $g \in E_V$,
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@@ -137,7 +137,7 @@
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In which case, $I(f) + I(f') \le I(f + f') + 3\eps$. Since this holds for all $\eps > 0$,
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\begin{enumerate}[start=4, label=(\roman*)]
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\item For each $f, f' \in C_c^+(G)$, $I(f + g) \ge I(f) + I(g)$.
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\item For each $f, f' \in C_c^+(G)$, $I(f + f') \ge I(f) + I(f')$.
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\end{enumerate}
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Using \autoref{lemma:positive-functional-extension}, $I$ extends to a positive linear functional on $C_c(G; \real)$, with $I(f) > 0$ for all $f \in C_c^+(G) \setminus \bracs{0}$, and
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