diff --git a/latex/sections/results.tex b/latex/sections/results.tex
index 9ca95ca..45d8d3f 100644
--- a/latex/sections/results.tex
+++ b/latex/sections/results.tex
@@ -108,7 +108,7 @@ assessment output can be found in Appendix \ref{sec:additional_results} in Figur
 balance, compared to the OpenMP load balance. The master process gatheres all the 
 data using blocking communication, resulting in the other processes waiting. This 
 results in one process, the master, having to work more. The OpenMP load balance 
-score is very good, suggesting the threads are not left idle for long periods.
+score is very good, suggesting that the threads are not left idle for long time periods.
 
 In Figure \ref{fig:phase_energy_10M}, for the larger lattices we observe a sharper 
 increase in $\langle \epsilon \rangle$ in the temperature range $T \in [2.25, 2.35]$. %]
@@ -187,7 +187,7 @@ of the critical temperature for a lattice of infinite size. The estimated critic
 is $T_{c}^{*}(L = \infty) \approx 2.2693 J/k_{B}$. We also compared the 
 estimate with the analytical solution, the relative error of our estimate is
 \begin{equation*}
-    \text{Relative error} =  \frac{T_{c}^{*} - T_{c \text{ analytical}}}{T_{c \text{ analytical}}} \approx 5.05405 \cdot 10^{-5} J/k_{B}
+    \text{Relative error} =  \frac{T_{c}^{*} - T_{c}}{T_{c}} \approx 5.05405 \cdot 10^{-5} J/k_{B}
 \end{equation*}
 
 \end{document}