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Commit ff0e5995 authored by Claude Meny's avatar Claude Meny
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Update cheatsheet.fr.md

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    12.temporary_ins/32.sets-systems/30.n3/20.systems/20.overview/cheatsheet.fr.md
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    ...@@ -429,32 +429,23 @@ L'une représente des proies et l'autre des prédateurs. ...@@ -429,32 +429,23 @@ L'une représente des proies et l'autre des prédateurs.
    <br> <br>
    * L'état **$`\mathbf{(X_1=D_2/C_2\,,\,X_2=C_1/D_1)}`$** est l'*unique cas stationnaire* intéressant. * L'état **$`\mathbf{(X_1=D_2/C_2\,,\,X_2=C_1/D_1)}`$** est l'*unique cas stationnaire* intéressant.
    <br> <br>
    **$`\left.\begin{array}{l} **$`\mathbf{\left.\begin{array}{l}
    \forall t \in \mathbb{R},\\ \forall t \in \mathbb{R},\\
    X_1(t) = \dfrac{D_2}{C_2} =X_1\\ X_1(t) = \dfrac{D_2}{C_2} =X_1\\
    X_2(t) = \dfrac{C_1}{D_1} = X_2 X_2(t) = \dfrac{C_1}{D_1} = X_2
    \end{array}\right\}`$** \end{array}\right\}}`$**
    $`\Longrightarrow\left\{\begin{array}{l} $`\Longrightarrow\left\{\begin{array}{l}
    \forall t \in \mathbb{R}, \\ \forall t \in \mathbb{R}, \\
    \left.\Dfrac{dX_1}{dt}\right\vert_t=+C_1\,X_1(t)-D_1\,X_1(t)X_2(t)\\ \left.\dfrac{dX_1}{dt}\right\vert_t=+C_1\,\dfrac{D_2}{C_2}-D_1\,\dfrac{D_2}{C_2}\dfrac{C_1}{D_1}\\
    \left.\Dfrac{dX_1}{dt}\right\vert_t=-D_2\,X_2(t)+C_2\,X_1(t)X_2(t) \left.\dfrac{dX_1}{dt}\right\vert_t=-D_2\,\dfrac{C_1}{D_1}+C_2\,\dfrac{D_2}{C_2}\dfrac{C_1}{D_1}
    \end{array}\right.`$ \end{array}\right.`$
    $`\Longrightarrow\left\{\begin{array}{l} **$`\mathbf{\Longrightarrow\left\{\begin{array}{l}
    \forall t \in \mathbb{R}, \\
    \left.\Dfrac{dX_1}{dt}\right\vert_t=+C_1\,\dfrac{D_2}{C_2}-D_1\,\dfrac{D_2}{C_2}\dfrac{C_1}{D_1}\\
    \left.\Dfrac{dX_1}{dt}\right\vert_t=-D_2\,\dfrac{C_1}{D_1}+C_2\,\dfrac{D_2}{C_2}\dfrac{C_1}{D_1}
    \end{array}\right.`$
    $`\Longrightarrow\left\{\begin{array}{l}
    \forall t \in \mathbb{R}, \\ \forall t \in \mathbb{R}, \\
    \left.\Dfrac{dX_1}{dt}\right\vert_t=+C_1\,\dfrac{D_2}{C_2}-D_1\,\dfrac{D_2}{C_2}\dfrac{C_1}{D_1}\\ \left.\dfrac{dX_1}{dt}\right\vert_t=0\\
    \left.\Dfrac{dX_1}{dt}\right\vert_t=-D_2\,\dfrac{C_1}{D_1}+C_2\,\dfrac{D_2}{C_2}\dfrac{C_1}{D_1} \left.\dfrac{dX_1}{dt}\right\vert_t=0
    \end{array}\right.`$ \end{array}\right.}`$**
    *$`\mathbf{\Longrightarrow} (X_1,X_2)`$* est *stationnaire*.
    C_1(t)=\dfrac{D_2}{C_2}=C_1\\
    C_2(t)=\dfrac{C_1}{D_1}=C_2
    \end{array}\right\}`$
    <br> <br>
    ##### Comment représenter l'ensemble des états possibles ? ##### Comment représenter l'ensemble des états possibles ?
    ......
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