Mathc initiation/Fichiers c : c72c06
Installer et compiler ces fichiers dans votre répertoire de travail.
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c01f.c |
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/* ---------------------------------- */
/* save as c1f.c */
/* ---------------------------------- */
#include "x_hfile.h"
#include "ff.h"
/* ---------------------------------- */
int main(void)
{
int n = 2*50;
double a = 2.;
double b = 3.;
clrscrn();
printf(" With the Simpson's rule. (n = %d)\n\n"
" (%.3f\n"
" int( (%s) dx = %.6f\n"
" (%.3f\n\n\n\n",n, b, feq, simpson(f,a,b,n), a);
printf(" With the antiderivative of f.\n\n"
" F(x) = %s \n\n\n"
" F(%.3f) - F(%.3f) = %.6f \n\n\n", Feq, b,a, F(b)-F(a));
stop();
return 0;
}
/* ---------------------------------- */
/* ---------------------------------- */
Calculons l'intégrale avec la fonction simpson(f,a,b,n); puis avec sa primitive F(x).
Exemple de sortie écran :
With the Simpson's rule. (n = 100)
(3.000
int( (-1/(1+exp(x))) dx = -0.078341
(2.000
With the antiderivative of f.
F(x) = ln(exp(-x)+1)
F(3.000) - F(2.000) = -0.078341
Press return to continue.
Calculons la primitive :
/
Calculer la primitive de | -1/(1+e**(x)) dx
/
/ / -1
| -1/(1+e**(x)) dx = | ---------- * 1 dx
/ / 1+e**(x)
/ -1 e**(-x)
= | ---------- ------- dx
/ 1+e**(x) e**(-x)
/ -e**(-x)
= | --------- dx
/ e**(-x)+1
______________________
| u = e**(-x)+1 |
| du = -e**(-x) dx |
|______________________|
/ 1
= | --- du
/ u
= ln(u) + c
= ln(e**(-x)+1) + c