Skip to content

Courses
Courses
Commit aafb40fb authored by Claude Meny's avatar Claude Meny
Browse files
Options

Update cheatsheet.fr.md

parent 00c1d7e3
Pipeline #18895 canceled with stage
    Hide whitespace changes
    Inline Side-by-side
    Showing with 11 additions and 11 deletions
    12.temporary_ins/90.electromagnetism-in-vacuum/20.electromagnetic-waves-vacuum/20.overview/cheatsheet.fr.md
    View file @ aafb40fb
    ...@@ -78,6 +78,7 @@ $`\Delta \overrightarrow{B}-\mu_0\epsilon_0\;\dfrac{\partial^2 \overrightarrow{B ...@@ -78,6 +78,7 @@ $`\Delta \overrightarrow{B}-\mu_0\epsilon_0\;\dfrac{\partial^2 \overrightarrow{B
    * Les constantes $`\mu_0\,,\, \epsilon_0\text{ et } c`$ vérifient **$`\mathbf{\mu_0\,\epsilon_0\,c^2=1}`$** * Les constantes $`\mu_0\,,\, \epsilon_0\text{ et } c`$ vérifient **$`\mathbf{\mu_0\,\epsilon_0\,c^2=1}`$**
    * Les **équations de propagation dans le vide** de $`\big(\overrightarrow{E}\,,\overrightarrow{B}\big)`$ deviennent : * Les **équations de propagation dans le vide** de $`\big(\overrightarrow{E}\,,\overrightarrow{B}\big)`$ deviennent :
    <br>
    **$`\mathbf{\large{\Delta \overrightarrow{E}-\dfrac{1}{c^2}\;\dfrac{\partial^2 \overrightarrow{E}} **$`\mathbf{\large{\Delta \overrightarrow{E}-\dfrac{1}{c^2}\;\dfrac{\partial^2 \overrightarrow{E}}
    {\partial t^2}=\overrightarrow{0}}}`$** {\partial t^2}=\overrightarrow{0}}}`$**
    <br> <br>
    ...@@ -221,15 +222,14 @@ figure à faire ...@@ -221,15 +222,14 @@ figure à faire
    \\ \\
    &\dfrac{\partial B_y}{\partial t}=- \dfrac{\partial E_x}{\partial z}\\ &\dfrac{\partial B_y}{\partial t}=- \dfrac{\partial E_x}{\partial z}\\
    \\ \\
    &\dfrac{\partial B_z}{\partial t}=0\\ &\dfrac{\partial B_z}{\partial t}=0
    \\
    & \quad(équa.2)
    \end{align} \end{align}
    \right.}}}`$** \right\}\quad(équa.2)
    }}}`$**
    <br> <br>
    * L'équation de *Maxwell-Thomson* implique dans le vide : * L'équation de **Maxwell-Thomson** implique *dans le vide* :
    <br> <br>
    $`\left. $`\left.
    \begin{align} &\underbrace{div\,\overrightarrow{B}=0}_{\color{blue}{\text{éq. de Maxwell-Thomson}}}\\ \begin{align} &\underbrace{div\,\overrightarrow{B}=0}_{\color{blue}{\text{éq. de Maxwell-Thomson}}}\\
    ...@@ -244,7 +244,7 @@ figure à faire ...@@ -244,7 +244,7 @@ figure à faire
    \\ \\
    &\dfrac{\partial B_x}{\partial x}=\dfrac{\partial B_y}{\partial y}=0 &\dfrac{\partial B_x}{\partial x}=\dfrac{\partial B_y}{\partial y}=0
    \end{align}\right\}`$ \end{align}\right\}`$
    *$`\large{\boldsymbol{\mathbf{\Longrightarrow\;\dfrac{\partial B_z}{\partial z}=0\quad(équa.3)}}}`$* **$`\large{\boldsymbol{\mathbf{\Longrightarrow\;\dfrac{\partial B_z}{\partial z}=0\quad(équa.3)}}}`$**
    <br> <br>
    ...@@ -269,16 +269,16 @@ figure à faire ...@@ -269,16 +269,16 @@ figure à faire
    &\quad =\dfrac{\partial B_y}{\partial y}=\dfrac{\partial B_z}{\partial y}=0 &\quad =\dfrac{\partial B_y}{\partial y}=\dfrac{\partial B_z}{\partial y}=0
    \end{align}\right\}`$ \end{align}\right\}`$
    <br> <br>
    **$`\large\boldsymbol{\mathbf{\Longrightarrow\left\{ **$`\large{\boldsymbol{\mathbf{\Longrightarrow\left\{
    \begin{align} \begin{align}
    &\dfrac{\partial B_y}{\partial z}=- \dfrac{1}{c^2}\;\dfrac{\partial E_x}{\partial t}\\ &\dfrac{\partial B_y}{\partial z}=- \dfrac{1}{c^2}\;\dfrac{\partial E_x}{\partial t}\\
    \\ \\
    &\;\dfrac{\partial B_x}{\partial z}=+ \dfrac{1}{c^2}\;\dfrac{\partial E_y}{\partial t}\\ &\;\dfrac{\partial B_x}{\partial z}=+ \dfrac{1}{c^2}\;\dfrac{\partial E_y}{\partial t}\\
    \\ \\
    &\;\dfrac{\partial E_z}{\partial t}=0\\ &\;\dfrac{\partial E_z}{\partial t}=0
    \\ \end{align}\right\}
    &\quad(équa.4) \quad(équa.4)
    \end{align}\right.}}}`$** }}}`$**
    <br> <br>
    ......
    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