Fixed typo in Cauchy in measure.

src/measure/measurable-maps/in-measure.tex

@@ -36,7 +36,7 @@
 
 \begin{proposition}[{{\cite[Theorem 2.30]{Folland}}}]
 \label{proposition:cauchy-in-measure-limit}
-    Let $(X, \cm, \mu)$ be a measure space, $(Y, d)$ be a complete metric space, and $\seq{f_n}$ be Borel measurable functions from $X \to Y$, then:
+    Let $(X, \cm, \mu)$ be a measure space, $(Y, d)$ be a complete metric space, and $\seq{f_n} \subset Y^X$ be a sequence Borel measurable functions from $X \to Y$ that is Cauchy in measure, then:
     \begin{enumerate}
         \item There exists a Borel measurable function $f: X \to Y$ such that $f_n \to f$ in measure.
         \item There exists a subsequence $\seq{n_k}$ such that $f_{n_k} \to f$ almost everywhere.