Update cheatsheet.fr.md

a1865af5 · Claude Meny · 760ea48d · a1865af5
Commit a1865af5 authored Apr 27, 2024 by Claude Meny
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cheatsheet.fr.md ...es-stationary-electric-field/20.overview/cheatsheet.fr.md +3 -3

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--- a/12.temporary_ins/10.electrostatics-vacuum/20.causes-stationary-electric-field/20.overview/cheatsheet.fr.md
+++ b/12.temporary_ins/10.electrostatics-vacuum/20.causes-stationary-electric-field/20.overview/cheatsheet.fr.md
@@ -697,8 +697,8 @@ $`\quad=\quad\dfrac{\dens^{2D}\cdot dS_P}{4\pi\epsilon_0}\cdot\dfrac{\overrighta
 <br>
 $`\hspace{2.3cm}=\quad\dfrac{\dens^{2D}\cdot \rho_P\,d\varphi\,d\rho}{4\pi\epsilon_0}\cdot\dfrac{\overrightarrow{PM}}{d^3}`$   
 <br>
-**$`\hspace{2.3cm}=\quad\dfrac{\dens^{2D}}{4\pi\epsilon_0}\cdot\dfrac{-\rho_P\,\overrightarrow{e_{\rho}}+z_M\,
-\overrightarrow{e_z}}{(\rho_P^2+z_M^2)^{3/2}}\;\rho_P\,d\varphi\,d\rho`$**
+**$`\mathbf{\boldsymbol{\hspace{2.3cm}=\quad\dfrac{\dens^{2D}}{4\pi\epsilon_0}\cdot\dfrac{-\rho_P\,\overrightarrow{e_{\rho}}+z_M\,
+\overrightarrow{e_z}}{(\rho_P^2+z_M^2)^{3/2}}\;\rho_P\,d\varphi\,d\rho}}`$**



@@ -723,7 +723,7 @@ figure à faire
  Ainsi **seule la composante $`dE_{P\rightarrow M,z}`$** $`\; = \overrightarrow{dE}_{P\rightarrow M}\cdot\overrightarrow{e_z}`$ 
  du champ électrique élémentaire selon $`z`$ *contribue au champ total $`\overrightarrow{E}_M`$* :   
  <br>
-  **$`\boldsymbol{\mathbf{\overrightarrow{dE}_{P\rightarrow M,z}=\dfrac{\dens^{1D}}{4\pi\epsilon_0}\cdot\dfrac{\rho_P\,z_M}{(\rho_P^2+z_M^2)^{\,3/2}}\,\rho_P\,d\varphi\,\,d\rho\,\overrightarrow{e_z}}}`$**
+  **$`\boldsymbol{\mathbf{\overrightarrow{dE}_{P\rightarrow M,z}=\dfrac{\dens^{1D}}{4\pi\epsilon_0}\cdot\dfrac{\rho_P\,z_M}{(\rho_P^2+z_M^2)^{\,3/2}}\,d\varphi\,\,d\rho\,\overrightarrow{e_z}}}`$**


 ##### Calcul du champ électrique total par intégration