Solving a mass-spring-damper system with ode45

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Kebels3 on 24 Mar 2020

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https://in.mathworks.com/matlabcentral/answers/512637-solving-a-mass-spring-damper-system-with-ode45

Commented: Francescogiuseppe Morabito on 3 May 2020

Accepted Answer: Ameer Hamza

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Hi guys

This code is for a with mass-spring-damper system

? = 50 kg

? = 100 N/m

? = 0.1 Ns/m

F = @(t, x) [x(2); -0.1/50*x(2) - 2*x(1)];
T = 0:0.001:10;
S = [0.5 0];
[t, y] = ode45(F, T, S);
plot(t,y)
legend({'Position', 'Speed'});
ylabel('Position / Speed [m / m/s]')
xlabel('Time [s]')
title(['mass-spring-damper system']);

But now the springforce is changed to ?? = 1250?3 − 1125?2 + 350?

How do i change this in the code?

Can you guys help me out

Greets Jeroen

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Kebels3 on 24 Mar 2020

X^3 and x^2 and you need top put T in as variable so Fv(T)

darova on 24 Mar 2020

I think those formulas are connected somehow

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Answer 1

Ameer Hamza on 24 Mar 2020

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https://in.mathworks.com/matlabcentral/answers/512637-solving-a-mass-spring-damper-system-with-ode45#answer_421798

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If you are considering a mass-spring system vibrating under the influence of an external force Fv, then try the following code

T = 0:0.001:10;
S = [0.5 0];
[t, y] = ode45(@odefun, T, S);
plot(t,y)
legend({'Position', 'Speed'});
ylabel('Position / Speed [m / m/s]')
xlabel('Time [s]')
title('mass-spring-damper system');
function dydt = odefun(~,x)
    F = 1*x(1)^3 - 1*x(1)^2 + 1*x(1);
    dydt = [x(2); 
            - F - 0.1/50*x(2) - 2*x(1)];
end

Output

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Francescogiuseppe Morabito on 2 May 2020

Edited: Francescogiuseppe Morabito on 3 May 2020

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Hi Ameer, I have a stupid question. I am not too confident with matlab embedded functions sometimes and this time I am having a problem is setting an analysis with ode45. I am analysing a mass spring damper system too, but mine has multiple degrees of freedom. I have a function that creates a column vector of dydt once time and a state vector are provided and it works fine. if I use it as funcion in ode45 it has problems. Searching on the web I have found this thread and since it is exactly what I need I tried running your code for comparisson... I tried to mach the two but results wewren't satisfying. the function I am using is this:

function [dydt]=eqfunODE(n,M22,K22,state_vec,time,TotalGlobForceVecReduced)
    % M22 and K22 are nxn matrices (constant in time)
    y1=zeros(n,1); 
    y2=zeros(n,1);
    dydt_1=zeros(n,1);
    dydt_2=zeros(n,1);
    dydt=zeros(2*n,1);
    y1=state_vec(1:n);
    y2=state_vec(n+1:2*n);
    dydt_1=y2;
    dydt_2=-M22\K22*y1+M22\TotalGlobForceVecReduced(time); 
    %% TotalGlobForceVecReduce is an anonymous function that generates a column vector 
    % once time is provided 
    dydt = [dydt_1; dydt_2];
end

if I run it as a f=@(state_vec,time) eqfunODE(...) and I provide a time and a state vec it generates a column vector of doubles, but when I run it as you it give me this error:

Index exceeds the number of array elements (1).
Error in Dynamic_Explicit_Solver001>eqfunODE (line 117)
    y1=state_vec(1:n);

Any suggestion will be very appreciated thank you !!

Ameer Hamza on 2 May 2020

I cannot run the code because I don't have the values of the variables. And it is difficult to diagnose an issue without that. I recommend you to start a new question and include the code used to call ode45 along with the value of variables. You can then post the link in the next comment so that I will get a notification.

Francescogiuseppe Morabito on 3 May 2020

thank you Ameer, this is the link: https://uk.mathworks.com/matlabcentral/answers/522631-solving-second-order-ode-problem-with-ode-45.

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Solving a mass-spring-damper system with ode45

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