Mathc matrices/a123
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c00a.c |
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/* ------------------------------------ */
/* Save as : c00a.c */
/* ------------------------------------ */
#include "v_a.h"
/* ------------------------------------ */
int main(void)
{
time_t t;
srand(time(&t));
double ta[R3*C4]={ 1,0,0, 16,
0,1,0, 27,
0,0,1, 25};
double **T = ca_A_mR(ta, i_mR(R3,C4));
double **A = r_mR( i_mR(R3,C3),9);
double **AT = mul_mR(A,T, i_mR(R3,C4));
double **Ab = gj_TP_mR(c_mR(AT, i_Abr_Ac_bc_mR(R3,C3,C1)));
printf(" You want to create this nonlinear system of equations :\n");
printf("\n");
printf(" a X**4 + b Y**3 + c Z**2 = d \n");
printf(" e X**4 + f Y**3 + g Z**2 = h \n");
printf(" i X**4 + j Y**3 + k Z**2 = l \n");
printf("\n");
printf(" With X = 2, Y = 3, Z = 5 \n");
printf(" You have X**4 = 16, Y**3 = 27, Z**2 = 25 \n");
printf("\n");
printf(" In fact, you want to find a matrix, \n");
printf(" which has this reduced row-echelon form :\n\n"
"Ab:");
p_mR(T,S7,P3,C6);
stop();
clrscrn();
printf(" If :\n\n A = r_mR(i_mR(R3,C3),9); ");
p_mR(A,S7,P3,C6);
printf(" And :\n\n T :");
p_mR(T,S7,P3,C6);
printf(" I suggest this matrix : A*T = Ab\n\n"
" Ab : ");
P_mR(AT,S8,P3,C6);
stop();
clrscrn();
printf("\n With the Gauss Jordan function :\n"
"Ab:");
p_mR(Ab,S7,P3,C6);
stop();
f_mR(Ab);
f_mR(A);
f_mR(T);
f_mR(AT);
return 0;
}
/* ------------------------------------ */
/* ------------------------------------ */
Le but de ce travail est de créer des systèmes dont on connait le résultat par avance.
Exemple de sortie écran :
------------------------
You want to create this nonlinear system of equations :
a X**4 + b Y**3 + c Z**2 = d
e X**4 + f Y**3 + g Z**2 = h
i X**4 + j Y**3 + k Z**2 = l
With X = 2, Y = 3, Z = 5
You have X**4 = 16, Y**3 = 27, Z**2 = 25
In fact, you want to find a matrix,
which has this reduced row-echelon form :
Ab:
+1.000 +0.000 +0.000 +16.000
+0.000 +1.000 +0.000 +27.000
+0.000 +0.000 +1.000 +25.000
Press return to continue.
------------------------
If :
A = r_mR(i_mR(R3,C3),9);
+6.000 +2.000 +4.000
-4.000 -4.000 -8.000
-2.000 -5.000 -9.000
And :
T :
+1.000 +0.000 +0.000 +16.000
+0.000 +1.000 +0.000 +27.000
+0.000 +0.000 +1.000 +25.000
I suggest this matrix : A*T = Ab
Ab :
+6.000, +2.000, +4.000, +250.000,
-4.000, -4.000, -8.000, -372.000,
-2.000, -5.000, -9.000, -392.000
Press return to continue.
------------------------
With the Gauss Jordan function :
Ab:
+1.000 +0.000 +0.000 +16.000
+0.000 +1.000 +0.000 +27.000
+0.000 +0.000 +1.000 +25.000
Press return to continue.