diff --git a/linearApproximation/exercises/LinearApproximations7.tex b/linearApproximation/exercises/LinearApproximations7.tex
index 7d97d8b06..f22e316f4 100644
--- a/linearApproximation/exercises/LinearApproximations7.tex
+++ b/linearApproximation/exercises/LinearApproximations7.tex
@@ -28,9 +28,9 @@
 \d{N} = \frac{\answer{2000000}e^{-0.1t}}{\left(1+100e^{-0.1t}\right)^2}\d{t}.
 \]
 
-Assuming that 45 days have passed since the outbreak started, we use the above formula to estimate the number of people (rounded to the nearest 1 person) that will fall sick in the next day. That number is approximately $\answer{4986}$.
+After 45 days since the outbreak started, we use the above formula to estimate the number of people (rounded to the nearest 1 person) that will fall sick on the next day. That number is approximately $\answer{4986}$.
 
-Assuming that 100 days have passed since the outbreak started, we use the above formula to estimate the number of people (rounded to the nearest 1 person) that will fall sick in the next day. That number is approximately $\answer{90}$.
+After 100 days since the outbreak started, we use the above formula to estimate the number of people (rounded to the nearest 1 person) that will fall sick on the next day. That number is approximately $\answer{90}$.
 
 \end{exercise}
-\end{document}
\ No newline at end of file
+\end{document}