From b5f2a92ad26df98f3c1305133bb07a9dceaeb4c3 Mon Sep 17 00:00:00 2001 From: Claude Meny Date: Fri, 20 Mar 2020 01:13:11 +0100 Subject: [PATCH] Update textbook.fr.md --- .../02.electromagnetic-waves-vacuum-main/textbook.fr.md | 4 ++-- 1 file changed, 2 insertions(+), 2 deletions(-) diff --git a/01.curriculum/01.physics-chemistry-biology/04.Niv4/04.electromagnetism/02.electromagnetic-waves-vacuum/02.electromagnetic-waves-vacuum-main/textbook.fr.md b/01.curriculum/01.physics-chemistry-biology/04.Niv4/04.electromagnetism/02.electromagnetic-waves-vacuum/02.electromagnetic-waves-vacuum-main/textbook.fr.md index 27c0bfede..e24a65d95 100644 --- a/01.curriculum/01.physics-chemistry-biology/04.Niv4/04.electromagnetism/02.electromagnetic-waves-vacuum/02.electromagnetic-waves-vacuum-main/textbook.fr.md +++ b/01.curriculum/01.physics-chemistry-biology/04.Niv4/04.electromagnetism/02.electromagnetic-waves-vacuum/02.electromagnetic-waves-vacuum-main/textbook.fr.md @@ -346,9 +346,9 @@ Si de plus l'OPPM est polarisée rectilignement selon l'un des deux vecteurs de par exemple le vecteur $`\overrightarrow{e_x}`$, alors l'écriture de l'OPPM se simplifie encore : $`\hspace{0.6cm}\overrightarrow{E}=\left| - \begin{array}{r c l} + \begin{array}{l} E_x=E_0\cdot cos(kz - \omega\,t + \phi_x)\\ - E_y=0)\\ + E_y=0\\ E_z=0\\ \end{array} \right.`$