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Commit 961123c0 authored by Claude Meny's avatar Claude Meny
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Update cheatsheet.fr.md

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    12.temporary_ins/90.electromagnetism-in-vacuum/10.maxwell-equations/20.overview/cheatsheet.fr.md
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    ...@@ -190,7 +190,8 @@ $`\Longrightarrow`$ ...@@ -190,7 +190,8 @@ $`\Longrightarrow`$
    $`\forall \overrightarrow{r}, \overrightarrow{rot} \,\overrightarrow{B} = \mu_0\;\overrightarrow{j} + \mu_0 \epsilon_0 \;\dfrac{\partial \overrightarrow{E}}{\partial t}`$ $`\forall \overrightarrow{r}, \overrightarrow{rot} \,\overrightarrow{B} = \mu_0\;\overrightarrow{j} + \mu_0 \epsilon_0 \;\dfrac{\partial \overrightarrow{E}}{\partial t}`$
    $`\Longrightarrow`$$` \iint_S \overrightarrow{rot} \,\overrightarrow{B}\cdot\overrightarrow{dS} = \iint_S\Big(\mu_0\;\overrightarrow{j} + \mu_0 \epsilon_0 \;\dfrac{\partial \overrightarrow{E}}{\partial t}\Big)\cdot\overrightarrow{dS}`$ $`\Longrightarrow`$$` \iint_S \overrightarrow{rot} \,\overrightarrow{B}\cdot\overrightarrow{dS} = \iint_S\Big(\mu_0\;\overrightarrow{j} + \mu_0 \epsilon_0 \;\dfrac{\partial \overrightarrow{E}}{\partial t}\Big)\cdot\overrightarrow{dS}`$
    $`\left.\begin{array}{l} $`\left.\begin{array}{l}
    \iint_S \overrightarrow{rot} \,\overrightarrow{B}\cdot\overrightarrow{dS} = \iint_S\Big(\mu_0\;\overrightarrow{j} + \mu_0 \epsilon_0 \;\dfrac{\partial \overrightarrow{E}}{\partial t}\Big)\cdot\overrightarrow{dS} \\ \iint_S \overrightarrow{rot} \,\overrightarrow{B}\cdot\overrightarrow{dS} = \iint_S\Big(\mu_0\;\overrightarrow{j} + \mu_0 \epsilon_0 \;\dfrac{\partial \overrightarrow{E}}{\partial t}\Big)\cdot\overrightarrow{dS} \\
    \text{Newton : espace et temps indépendants},\\ \text{Newton : espace et temps indépendants},\\
    ...@@ -199,7 +200,8 @@ $`\left.\begin{array}{l} ...@@ -199,7 +200,8 @@ $`\left.\begin{array}{l}
    $`\Longrightarrow`$ $`\Longrightarrow`$
    $`\iint_S \overrightarrow{rot} \,\overrightarrow{B}\cdot\overrightarrow{dS}`$$`\; = \mu_0\iint_S \overrightarrow{j}\cdot\overrightarrow{dS} + $`\iint_S \overrightarrow{rot} \,\overrightarrow{B}\cdot\overrightarrow{dS}`$$`\; = \mu_0\iint_S \overrightarrow{j}\cdot\overrightarrow{dS} +
    \mu_0 \epsilon_0\dfrac{d}{dt}\iint_S\overrightarrow{E}\cdot\overrightarrow{dS}`$ \mu_0 \epsilon_0\dfrac{d}{dt}\iint_S\overrightarrow{E}\cdot\overrightarrow{dS}`$
    $`\left.\begin{array}{l} $`\left.\begin{array}{l}
    \iint_S \overrightarrow{rot} \,\overrightarrow{B}\cdot\overrightarrow{dS} = \mu_0\iint_S \overrightarrow{j}\cdot\overrightarrow{dS} + \iint_S \overrightarrow{rot} \,\overrightarrow{B}\cdot\overrightarrow{dS} = \mu_0\iint_S \overrightarrow{j}\cdot\overrightarrow{dS} +
    \mu_0 \epsilon_0\dfrac{d}{dt}\iint_S\overrightarrow{E}\cdot\overrightarrow{dS} \\ \mu_0 \epsilon_0\dfrac{d}{dt}\iint_S\overrightarrow{E}\cdot\overrightarrow{dS} \\
    ......
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