Update on Overleaf.

2025-03-21 14:09:48 +00:00 · 2025-03-21 14:09:48 +00:00 · b009a922b2
parent af623579bc
commit b009a922b2
1 changed files with 1 additions and 1 deletions
--- a/prerequisites.tex
+++ b/prerequisites.tex
@ -19,7 +19,7 @@

 \begin{frame}{Quotients of the $3$-sphere}
 	\begin{itemize}
-		\item $\so 4$ is isomorphic to the isometry group of $\S^3$.
+		\item The group $\so 4$ is isomorphic to the isometry group of $\S^3$.
 		\item Subgroups $\Gamma \leqslant \so 4$ define \textcolor{darkyellow}{equivalence classes} of orbits on $\S^3$ by the standard action of $\so 4$ on $\R^4$, i.e. $x \sim y$ iff $x = My$ for some $M \in \Gamma$.
 		      \pause
 		\item The obtain space is (\emph{sometimes}) a manifold. In particular, it is well defined and spherical for finite $\Gamma$.