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these are the differential equations that I wanted to plot.

first, I tried to solve the differential equation and then plot the graph.

Dsolve('Dx=y','Dy=-k*y-x^3+9.8*cos(t)', inits)

like this, however, there was no explicit solution for this system.

now i am stuck :(

how can you plot this system without solving the equations?

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define x,y,t and use plot after –  apomene Apr 15 '13 at 19:50

1 Answer 1

First define the differential equation you want to solve. It needs to be a function that takes two arguments - the current time t and the current position x, and return a column vector. Instead of x and y, we'll use x(1) and x(2).

k = 1;
f = @(t,x) [x(2); -k * x(2) - x(1)^3 + 9.8 * cos(t)];

Define the timespan you want to solve over, and the initial condition:

tspan = [0, 10];
xinit = [0, 0];

Now solve the equation numerically using ode45:

ode45(f, tspan, xinit)

which results in this plot:

enter image description here

If you want to get the values of the solution at points in time, then just ask for some output arguments:

[t, y] = ode45(f, tspan, xinit);

You can plot the phase portrait x against y by doing

plot(y(:,1), y(:,2)), xlabel('x'), ylabel('y'), grid

which results in the following plot

enter image description here

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Yoy thanks. But now, how can I get a graph of x(1) versus x(2)? However thanks a lot for helping me. –  Shawn Sihyun Jeon Apr 16 '13 at 5:19
@ShawnSihyunJeon I edited to show you how to graph that. –  Chris Taylor Apr 16 '13 at 18:51
wow cool. thanks a lot! –  Shawn Sihyun Jeon Apr 16 '13 at 20:53

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