How to Solve Second Order ODE with 2 dependent variables

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Yanuar Rizki Pahlevi
Yanuar Rizki Pahlevi am 14 Jan. 2021
Beantwortet: Ariadna am 5 Mai 2022
Hi guys, I am trying to solve this second order ODE, I followed this step
diff(x,2)== diff(x)-y
Vx=odeToVectorField(diff(x,2)== diff(x)-y)
[Y[2]; Y[2] - y(t)] %result from odeToVectorField
diff(y,2)== diff(y)-x
Vy=odeToVectorField(diff(x,2)== diff(x)-y)
[[Y[2]; Y[2] - x(t)]] %result from odeToVectorField
i tried using odeToVectorField to make it in first order and got 2 vectors. but then I dont understand how to make this to work since on the vector from first DE, there is variable y(t) which always updated during calculation.. it also happened for vector from second DE..
I tried using this step
by creating
ode1=diff(x1)==x2;
ode2=diff(x2)==diff(x1)-y1
ode3=diff(y1)==y2
ode4=diff(y2)==diff(y1)-x1
odes1=[ode1;ode2]
odes2=[ode3;ode4]
but dsolve did not work for this.

Antworten (2)

Divija Aleti
Divija Aleti am 20 Jan. 2021
Hi Yanuar,
Two second order ODE's can directly be solved by using 'dsolve'. Have a look at the following code:
syms x(t) y(t)
ode1 = diff(x,2)==diff(x)-y;
ode2 = diff(y,2)==diff(y)-x;
odes = [ode1;ode2];
S = dsolve(odes)
S.x
S.y
Another method would be to convert the two second order ODEs into four first order ODEs and then solve using dsolve.
Let x1 = x, y1 = y
dx1/dt = x2, dy1/dt = y2
dx2/dt = x2 - y1, dy2/dt = y2 - x1
syms x1(t) x2(t) y1(t) y2(t)
ode1=diff(x1)==x2;
ode2=diff(x2)==x2-y1;
ode3=diff(y1)==y2;
ode4=diff(y2)==y2-x1;
odes=[ode1;ode2;ode3;ode4];
S = dsolve(odes);
S.x1 % As x1 = x
S.y1 % As y1 = y
Output:
  1 Kommentar
Zein alabdeen shreify
Zein alabdeen shreify am 9 Jul. 2021
1) how can I extract the results from this?
2) if I have functions, how can I input the? they are differential functions

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Ariadna
Ariadna am 5 Mai 2022
It tried to solve this equation using this method and I didn't obtain results.
Does someone knows how to solve this system?
e=0.01
n=0.7
syms x1(t) x2(t)
dx1 = diff(x1) == x1*x2*(1-(x1+x2))-e*x1;
dx2 = diff(x2) == n*x1*x2*(1-(x1+x2))-e*x1;

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R2020b

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