diff --git a/paper.tex b/paper.tex
index 781ca03..cd682ac 100644
--- a/paper.tex
+++ b/paper.tex
@@ -264,7 +264,7 @@ the time spent waiting as well as the time dispensing water, is
 %
 where $S$ denotes the service time (i.e., the time spent refilling a
 bottle), $\lambda$ the mean arrival rate, and $\rho = \lambda \cdot
-E\mleft\{ S \mright\}$ the system utilization. Using our experimental
+E\mleft\{ S \mright\}$ the system utilisation. Using our experimental
 data we can approximate all parameters and obtain $W \approx
 \SI{23.3}{\second}$. The difference to always using the fastest
 strategy amounts to $\SI{4.14}{\second}$.
@@ -281,7 +281,7 @@ of up to $0.00103$ points.
 \section{Discussion and Conclusion}
 
 Further research is needed, particularly on the modelling of the
-arrival process and the relationship between the response time gain
+arrival process and the relationship between the response time and
 the grade gain. Nevertheless, we believe this work serves as a solid
 first step on the path towards achieving optimal study behaviour.