Skip to content

Courses
Courses
Commit 629e6063 authored by Claude Meny's avatar Claude Meny
Browse files
Options

Update cheatsheet.fr.md

parent d05fda68
Pipeline #13721 canceled with stage
    Hide whitespace changes
    Inline Side-by-side
    Showing with 22 additions and 5 deletions
    12.temporary_ins/90.electromagnetism-in-vacuum/10.maxwell-equations/20.overview/cheatsheet.fr.md
    View file @ 629e6063
    ...@@ -70,17 +70,34 @@ RÉSUMÉ ...@@ -70,17 +70,34 @@ RÉSUMÉ
    *Forme locale des équations de Maxwell* *Forme locale des équations de Maxwell*
    * En tout point de l'espace et à tout instant : * En tout point de l'espace et à tout instant :
    $`\left{\begin{array}{l} $`\left\{\begin{array}{l}
    \mathbf{div \overrightarrow{E} = \dfrac{\dens}{\epsilon_0}}\quad\tiny{Maxwell-Gauss}\\ \mathbf{div \overrightarrow{E} = \dfrac{\dens}{\epsilon_0}}\quad\tiny{Maxwell-Gauss}}\\
    \mathbf{div \overrightarrow{B} = 0}\quad Maxwell-flux}\\ \mathbf{div \overrightarrow{B} = 0\quad Maxwell-flux}\\
    \mathbf{\overrightarrow{rot} \;\overrightarrow{E} = -\dfrac{\partial \overrightarrow{B}}{\partial t}}\quad\tiny{\text{Maxwell-Faraday}}\\ \mathbf{\overrightarrow{rot} \;\overrightarrow{E} = -\dfrac{\partial \overrightarrow{B}}{\partial t}}\quad\tiny{\text{Maxwell-Faraday}}\\
    \mathbf{\overrightarrow{rot} \;\overrightarrow{B} = \mu_0\;\overrightarrow{j} + \mu_0 \epsilon_0 \;\dfrac{\partial \overrightarrow{E}}{\partial t}}\quad\tiny{\text{Maxwell-Ampère}} \mathbf{\overrightarrow{rot} \;\overrightarrow{B} = \mu_0\;\overrightarrow{j} + \mu_0 \epsilon_0 \;\dfrac{\partial \overrightarrow{E}}{\partial t}}\quad\tiny{\text{Maxwell-Ampère}}
    \end{array}\right.`$ \end{array}\right.`$
    $`\left\{\begin{array}{l}
    \mathbf{div \overrightarrow{E} = \dfrac{\dens}{\epsilon_0}}\quad\tiny{Maxwell-Gauss}}\\
    \end{array}\right.`$
    $`\left\{\begin{array}{l}
    \mathbf{div \overrightarrow{E} = \dfrac{\dens}{\epsilon_0}}\quad\tiny{Maxwell-Gauss}}\\
    \mathbf{div \overrightarrow{B} = 0\quad Maxwell-flux}
    \end{array}\right.`$
    $`\left\{\begin{array}{l}
    div \overrightarrow{E} = \dfrac{\dens}{\epsilon_0}}\quad\tiny{Maxwell-Gauss}\\
    \end{array}\right.`$
    $`\left\{\begin{array}{l}
    div \overrightarrow{E} = \dfrac{\dens}{\epsilon_0}}\quad\tiny{Maxwell-Gauss}\\
    div \overrightarrow{B} = 0}\quad Maxwell-flux}
    \end{array}\right.`$
    $`\left\{ \begin{array}{l} $`\left\{ \begin{array}{l}
    div \overrightarrow{E} = \dfrac{\dens}{\epsilon_0}\quad\tiny{Maxwell-Gauss}\\ div \overrightarrow{E} = \dfrac{\dens}{\epsilon_0}\quad\tiny{Maxwell-Gauss}\\
    div \overrightarrow{B} = 0\quad Maxwell-flux}\\ div \overrightarrow{B} = 0\quad Maxwell-flux\\
    \overrightarrow{rot} \;\overrightarrow{E} = -\dfrac{\partial \overrightarrow{B}}{\partial t}\quad\tiny{\text{Maxwell-Faraday}}\\ \overrightarrow{rot} \;\overrightarrow{E} = -\dfrac{\partial \overrightarrow{B}}{\partial t}\quad\tiny{\text{Maxwell-Faraday}\\
    \overrightarrow{rot} \;\overrightarrow{B} = \mu_0\;\overrightarrow{j} + \mu_0 \epsilon_0 \;\dfrac{\partial \overrightarrow{E}}{\partial t}\quad\tiny{\text{Maxwell-Ampère}} \overrightarrow{rot} \;\overrightarrow{B} = \mu_0\;\overrightarrow{j} + \mu_0 \epsilon_0 \;\dfrac{\partial \overrightarrow{E}}{\partial t}\quad\tiny{\text{Maxwell-Ampère}}
    \end{array}\right.`$ \end{array}\right.`$
    ......
    Markdown is supported
    0% or
    You are about to add 0 people to the discussion. Proceed with caution.
    Finish editing this message first!
    Please register or to comment