From 93a7fc15cc5cc4d054811bb1c802cfc08f778938 Mon Sep 17 00:00:00 2001
From: c5e26cdef30a6aad273a095700de6ac0
 <c5e26cdef30a6aad273a095700de6ac0@app-learninglab.inria.fr>
Date: Thu, 30 Nov 2023 12:52:38 +0000
Subject: [PATCH] Replace toy_document_en.Rmd

---
 module2/exo1/toy_document_en.Rmd | 52 ++++++++++++++++++--------------
 1 file changed, 29 insertions(+), 23 deletions(-)

diff --git a/module2/exo1/toy_document_en.Rmd b/module2/exo1/toy_document_en.Rmd
index 13b258d..f5f2359 100644
--- a/module2/exo1/toy_document_en.Rmd
+++ b/module2/exo1/toy_document_en.Rmd
@@ -1,33 +1,39 @@
 ---
-title: "Your title"
-author: "Your name"
-date: "Today's date"
+title: "À propos du calcul de pi"
+author: "*Arnaud Legrand*"
+date: "*25 juin 2018*"
 output: html_document
 ---
 
-
-```{r setup, include=FALSE}
-knitr::opts_chunk$set(echo = TRUE)
+# En demandant à la lib maths
+Mon ordinateur m'indique que π vaut *approximativement*
+```{r}
+pi
 ```
-
-## Some explanations
-
-This is an R Markdown document that you can easily export to HTML, PDF, and MS Word formats. For more information on R Markdown, see <http://rmarkdown.rstudio.com>.
-
-When you click on the button **Knit**, the document will be compiled in order to re-execute the R code and to include the results into the final document. As we have shown in the video, R code is inserted as follows:
-
-```{r cars}
-summary(cars)
+# En utilisant la méthode des aiguilles de Buffon
+Mais calculé avec la **méthode** des [aiguilles de Buffon](https://fr.wikipedia.org/wiki/Aiguille_de_Buffon), on obtiendrait comme **approximation**:
+
+```{r}
+set.seed(42)
+N = 100000
+x = runif(N)
+theta = pi/2*runif(N)
+2/(mean(x+sin(theta)>1))
 ```
-
-It is also straightforward to include figures. For example:
-
-```{r pressure, echo=FALSE}
-plot(pressure)
+# Avec un argumant "fréquentiel" de surface
+Sinon, une méthode plus simple à comprendre et ne faisant pas intervenir d'appel à la fonction sinus se base sur le fait que si X∼U(0,1) et Y∼U(0,1) alors P[X<sup>2</sup>+Y<sup>2</sup>≤1]=π/4 (voir [méthode de Monte Carlo sur Wikipédia](https://fr.wikipedia.org/wiki/M%C3%A9thode_de_Monte-Carlo#D%C3%A9termination_de_la_valeur_de_%CF%80)). Le code suivant illustre ce fait:
+```{r, message = FALSE, warning = FALSE}
+set.seed(42)
+N = 1000
+df = data.frame(X = runif(N), Y = runif(N))
+df$Accept = (df$X**2 + df$Y**2 <=1)
+library(ggplot2)
+ggplot(df, aes(x=X,y=Y,color=Accept)) + geom_point(alpha=.2) + coord_fixed() + theme_bw()
 ```
 
-Note the parameter `echo = FALSE` that indicates that the code will not appear in the final version of the document. We recommend not to use this parameter in the context of this MOOC, because we want your data analyses to be perfectly transparent and reproducible.
 
-Since the results are not stored in Rmd files, you should generate an HTML or PDF version of your exercises and commit them. Otherwise reading and checking your analysis will be difficult for anyone else but you.
+Il est alors aisé d’obtenir une approximation (pas terrible) de π en comptant combien de fois, en moyenne, X<sup>2</sup> + Y<sup>2</sup> est inférieur à 1:
+```{r}
+4*mean(df$Accept)
+```
 
-Now it's your turn! You can delete all this information and replace it by your computational document.
-- 
2.18.1