finding the value at a specific time from second-order ODE

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Tien Yin
Tien Yin am 2 Dez. 2024
Kommentiert: Tien Yin am 4 Dez. 2024
Ran in:
I'm new to MATLAB
I've been working on solving ODE and I now have learnt two ways to plot the 2-order ODE
  1. using ode45
  2. using conv() fucntion
Here's the problem : I want to know the value at a specific time for example f(2.5) when t=2.5
it can be displayed in any way like output in the command window or on the figure
please teach a way to output the value
I'll attach the files I've been working on
if you think the codes are tltr you could just give suggestions though
[time,y] = ode45('ode45_function' , [0 10] , [0,0]) ;
figure ;
subplot(212);plot(time,y(:,1));xlabel('t');ylabel('y(t)');
m = 5;
k = 18;
c = 1.2;
f0 = 100;
wn = sqrt(k/m);
cc = 2*m*wn;
Dr = c/cc;
wd = wn*sqrt(1-Dr^2);
dt = 0.001; % assumed dt
time = 0:dt:10;
f = zeros(1, length(time));
f(0001:3000) = (f0/3) * (0:dt:3-dt); % Linear increase from 0 to 3 seconds
f(3001:5000) = f0; % Constant from 3 to 5 seconds
% f remains 0 after 5 seconds
g = (1/(m*wd))*exp(-Dr*wn*time).*sin(wd*time);
x = conv(f, g)*dt;
x = x(1:length(time)); % Ensure x is the same length as time
% x is the solution function for the 2-order ODE 
figure;
subplot(221); plot(time, f, 'r'); xlabel('t(s)'); ylabel('f(t)');
subplot(222); plot(time, g); xlabel('t(s)'); ylabel('g(t)');
subplot(223); plot(time, x); xlabel('t(s)'); ylabel('位移(m)');
% this is the function which I want to extract the specific value from
% it for ex: f(3), f(2.5) ...
function ydot=ode45_function(t,y)
m=5;
k=18;
c=1.2;
if t<3
f= 100*t/3;
elseif t<5
f=100;
else
f=0;
end
ydot(1)=y(2);
ydot(2)=(1/m)*(f-c*y(2)-k*y(1));
ydot=ydot';
end

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Akzeptierte Antwort

Steven Lord
Steven Lord am 2 Dez. 2024
Ran in:
You could call ode45 with just one output argument and then call deval, or you could call ode45 with the desired time as one element of the timespan input argument, or (if you're using a sufficiently recent release of MATLAB) you could use the ode object instead of just ode45.
I also recommend you pass a function handle into ode45 rather than passing the name of the function.
One output with deval
sol = ode45(@ode45_function , [0 10] , [0,0]) ;
solutionAtTime = deval(sol, 2.5)
solutionAtTime = 2×1
5.2273 1.9079
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Timespan input contains the desired time
[t, y] = ode45(@ode45_function , [0 2.5 10] , [0,0]);
solutionAtTime2 = y(2, :).'
solutionAtTime2 = 2×1
5.2273 1.9079
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ODE object
odeobj = ode;
odeobj.ODEFcn = @ode45_function;
odeobj.InitialValue = [0 0];
results = solve(odeobj, 2.5); % Just solve at t = 2.5
solutionAtTime3 = results.Solution
solutionAtTime3 = 2×1
5.2267 1.9092
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  6 Kommentare
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Steven Lord
Steven Lord am 3 Dez. 2024
Yes, if the first component of y represents position then the second component represents velocity.
Tien Yin
Tien Yin am 4 Dez. 2024
I get it , thanks for answering

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Weitere Antworten (1)

Torsten
Torsten am 2 Dez. 2024
Verschoben: Torsten am 2 Dez. 2024
The easiest (maybe slightly inaccurate) way is to use interpolation:
f_conv = interp1(time,x,2.5)
f_ode45 = interp1(time,y(:,1),2.5)
  3 Kommentare
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Sam Chak
Sam Chak am 3 Dez. 2024
@Tien Yin, Also try learning to "vote" other helpful answers or solutions.

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