Can anyone help me solve this problem using Newton's Method?

13 Mär. 2021
1 Antwort
Aktualisiert 15 Mär. 2021
10 Ansichten (30 Tage)

0 Stimmen

Using Newton's Method solve the equations:
x^3 + y^2 + x - 0.715 = 0
x^2 + y^3 - y - 0.523 = 0
with (x0, y0) = (1, 0).

Melden Sie sich an, um diese Frage zu beantworten.

Antworten (1)

Sergey Kasyanov
Sergey Kasyanov am 13 Mär. 2021

0 Stimmen

Hello,
try that
i = 1;
V0 = [1;0];%[x0;y0]
V = V0 + 1;
while max(abs(V0 - V)) > 1e-10 && i < 1e2
V = V0;
J = [3*V(1)^2+1 2*V(2)
2*V(1) 3*V(2)^2-1];
F = [V(1)^3+V(2)^2+V(1)-0.715
V(1)^2+V(2)^3-V(2)-0.523];
V0 = V - F./(J*V);
i = i + 1;
end
x = V(1);
y = V(2);

3 Kommentare
1 älteren Kommentar anzeigen 1 älteren Kommentar ausblenden

Muzammil Arif
Muzammil Arif am 14 Mär. 2021
There is no error in the code but the answer are not matching with what i have done by hand
Muzammil Arif
Muzammil Arif am 14 Mär. 2021
0.5 and - 0.3 are the answer by solving
Sergey Kasyanov
Sergey Kasyanov am 15 Mär. 2021
There are some solutions of the equations system. You can try to find another solutions by changing start point or by adding and varying coefficient k in equation (0<k<1):
V0 = V - k * F./(J*V);
There are three solution near the 0: [-0.46, 1.13], [0.38;-0.54], [0.5;-0.3].

Melden Sie sich an, um zu kommentieren.

Kategorien

Mehr zu Numerical Integration and Differential Equations finden Sie in Hilfe-Center und File Exchange

Tags

Gefragt:

Muzammil Arif
Muzammil Arif
am 13 Mär. 2021

Kommentiert:

Sergey Kasyanov
Sergey Kasyanov
am 15 Mär. 2021

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by