diff --git a/main.tex b/main.tex
index 0c3d26a..e4e8669 100644
--- a/main.tex
+++ b/main.tex
@@ -132,11 +132,11 @@ code-for-last-col = \color{blue}
 		\item Multi-connected space: it has non-contractable loops
 		\item Inhomogeneous space: it does not look identical from every point in space
 		\item Fixing $|\Gamma|=8$, we have three multi-connected manifolds, up to equivalence:
-		      \begin{enumerate}
-			      \item homogeneous: $N3$ and $L(8,1)$
-			      \item inhomogeneous: $N2 \equiv L(8,3)$
-		      \end{enumerate}
-		\item Results: inhomogeneous spaces have more variety in CMB anisotropies than homogeneous spaces, because observer dependency changes the suppression of CMB anisotropies.
+        \begin{enumerate}
+            \item homogeneous: $N3$ and $L(8,1)$
+            \item inhomogeneous: $N2 \equiv L(8,3)$
+        \end{enumerate}
+        \item Results: inhomogeneous spaces have more variety in CMB anisotropies than homogeneous spaces, because different observation points have
 	\end{itemize}
 
 
@@ -182,7 +182,7 @@ code-for-last-col = \color{blue}
 		\includegraphics[width=0.7\linewidth]{DSE-Test Graph}
 		\caption{The decorrelated band mean spectrum obtained by the seven-year WMAP data [9].}
 	\end{figure}
-	\textcolor{red}{Remark}In a positively curved space certain multipoles scales being preferred or suppressed in the CMB power spectrum.
+\textcolor{red}{Remark}: In a positively curved space certain multipoles scales being preferred or suppressed in the CMB power spectrum.
 
 \end{frame}