From 7a8c159bda5dee1f0a18926d9057b9c0381279a3 Mon Sep 17 00:00:00 2001
From: cmeny <claude.meny@irap.omp.eu>
Date: Thu, 23 Jan 2020 13:41:59 +0100
Subject: [PATCH] Juste un essai

---
 .../02.optical-systems-vergence-overview/cheatsheet.en.md        | 1 -
 1 file changed, 1 deletion(-)

diff --git a/01.curriculum/01.physics-chemistry-biology/02.Niv2/04.optics/03.optical-systems-vergence/02.optical-systems-vergence-overview/cheatsheet.en.md b/01.curriculum/01.physics-chemistry-biology/02.Niv2/04.optics/03.optical-systems-vergence/02.optical-systems-vergence-overview/cheatsheet.en.md
index 5fa887c6d..95d0fae2a 100644
--- a/01.curriculum/01.physics-chemistry-biology/02.Niv2/04.optics/03.optical-systems-vergence/02.optical-systems-vergence-overview/cheatsheet.en.md
+++ b/01.curriculum/01.physics-chemistry-biology/02.Niv2/04.optics/03.optical-systems-vergence/02.optical-systems-vergence-overview/cheatsheet.en.md
@@ -414,7 +414,6 @@ Fig. 16. In this experiment, the observed object is located at a certain distanc
 **$\Longrightarrow$** *imager action* characterized by the **longitudinal magnification $M_L$**<br><br>
 **$M_L=\dfrac{image\:size}{object\:size}=\dfrac{\overline{A'_1A_2'}}{\overline{A_1A_2}}$**
 
-End