Mathc initiation/Fichiers h : x 18c01c
Installer et compiler ces fichiers dans votre répertoire de travail.
c01c.c |
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/* ---------------------------------- */
/* save as c01c.c */
/* ---------------------------------- */
#include "x_a.h"
/* ---------------------------------- */
# define DEGREE 6
# define COEFF_NB DEGREE + 1
/* ---------------------------------- */
int main(void)
{
double x = 1;
double remainder;
double *Pa = I_Px( COEFF_NB);
double *Pt = I_Px( COEFF_NB);
double *Pqr = I_Px( COEFF_NB);
double *Pq = I_Px((COEFF_NB-1));
double a[COEFF_NB]={5,3,-2,6,5,-2,-9};
clrscrn();
c_a_Px(a,Pa);
printf("\n If P(x) is : \n\n");
p_Px(Pa);
printf(" If we divide P(x) by : x - (%+.3f) \n\n",x);
remainder = compute_horner(x,Pa,Pt,Pqr,Pq);
p_horner(Pa,Pt,Pqr);
printf(" The synthetic division indicates that the quotien is :\n\n");
p_Px(Pq);
printf(" The synthetic division indicates that P(%+.3f) = %+.3f\n\n",
x, remainder);
stop();
free(Pa);
free(Pt);
free(Pqr);
free(Pq);
return 0;
}
/* ---------------------------------- */
/* ---------------------------------- */
Vérifier les calculs à la main. (Voir le premier exemple pour apprendre la méthode de Horner)
Exemple de sortie écran :
If p_A is :
+5.00*x**6 +3.00*x**5 -2.00*x**4 +6.00*x**3 +5.00*x**2 -2.00*x -9.00
If we divide p_A by : x - (+1.000)
+5.00 +3.00 -2.00 +6.00 +5.00 -2.00 -9.00
+0.00 +5.00 +8.00 +6.00 +12.00 +17.00 +15.00
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+5.00 +8.00 +6.00 +12.00 +17.00 +15.00 +6.00
The synthetic division indicates that the quotien is :
+5.00*x**5 +8.00*x**4 +6.00*x**3 +12.00*x**2 +17.00*x +15.00
The synthetic division indicates that p_A(+1.000) = +6.000
Press return to continue.
Fichier de commande gnuplot :
# ---------------------
# Copy and past this file into the screen of gnuplot
#
#
set zeroaxis lt 3 lw 1
plot [-2.:1.5] [-10.:20.]\
+5.00*x**6 +3.00*x**5 -2.00*x**4 +6.00*x**3 +5.00*x**2 -2.00*x -9.00
reset
# ---------------------