Update cheatsheet.fr.md

12.temporary_ins/32.sets-systems/30.n3/20.systems/20.overview/cheatsheet.fr.md

@@ -98,10 +98,10 @@ RÉSUMÉ<br>
 
   <br>
 
-   $`\Large{\left.\dfrac{dN}{dt}\right\lvert_{\,\bigt} = r\,N(t)}\normalsize{\quad \Longrightarrow\quad\left.\dfrac{dN}{N}\right\lvert_{\,\bigt}=r\,dt}`$
+   $`\Large{\left.\dfrac{dN}{dt}\right\lvert_{\,\bigt} = r\,N(t)} \quad \Longrightarrow\quad\left.\dfrac{dN}{N}\right\lvert_{\,\bigt}=r\,dt`$
 
   $`\displaystyle\begin{align}
-  \normalsize{\;\; &\Longrightarrow\;\int_{N(t_1)}^{N(t_2)}\dfrac{dN}{N}=\int_{t_1}^{t_2} r\,dt\\
+   \;\; &\Longrightarrow\;\int_{N(t_1)}^{N(t_2)}\dfrac{dN}{N}=\int_{t_1}^{t_2} r\,dt\\
    \\
    &\Longrightarrow\;\big[\,ln\,|N|\,\big]_{N(t_1)}^{N(t_2)}= r \,\big[\,t\,\big]_{t_1}^{t_2}\\
    \\
@@ -115,7 +115,7 @@ RÉSUMÉ<br>
    \\
    &\Longrightarrow\; N(t_2)=N(t_1)\,exp\,\big[r\,(t_2 - t_1)\big]\\
    \\
-   &\Longrightarrow\;} \Large{N(t_2)=N(t_1)\;e^{\,r\,(t_2-t_1)}}
+   &\Longrightarrow\; \Large{N(t_2)=N(t_1)\;e^{\,r\,(t_2-t_1)}}
    \end{align}`$