solving coupled system of second order differential equations

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aakash dewangan 2021년 5월 25일

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https://kr.mathworks.com/matlabcentral/answers/839500-solving-coupled-system-of-second-order-differential-equations

댓글: aakash dewangan 2021년 5월 30일

Hello everyone,

I want to solve a "second order coupled ordinary differential equation". I searched a lot but could not find the solution.

Please suggest me how can I solve this.

The structure of my equation is given below,

[M]{x''} + [K]{x} = {F}

where [M], [K] are the matrices, which contain time dependent terms.

{x} vector of unknown dependent variables.

{x''} is the second derivative of the vector {x} with respect to time.

Please note that [M], [K] contains time varying terms

Looking forward for your the response.

Thanks for your time..

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Paul 2021년 5월 28일

Do you have a simple example for M, K, and F? Preferably one that you know what that solution should be?

aakash dewangan 2021년 5월 30일

M, K and F contains sinusoidal terms, which depend on time. Diagonal terms of M and K are in the form of a+sin(nwt), and non diagonal terms are like sin(nbt)*sin(nct). Where a,b,c,n are some constant parameters, and t is time.

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Sulaymon Eshkabilov 2021년 5월 25일

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https://kr.mathworks.com/matlabcentral/answers/839500-solving-coupled-system-of-second-order-differential-equations#answer_708825

Hi,

You can employ ode solvers (ode23, ode23tb, ode45, ode113, etc) as suggested or write scripts using function handles or anonymous functions by apply Euler or Runge-Kutta methods.

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aakash dewangan 2021년 5월 28일

Thanks Sulaymon,

But I am looking for Analytical solution. Can you suggest me how I can solve this using Analytical approach?

Sulaymon Eshkabilov 2021년 5월 28일

MATLAB Online에서 열기

Should you need to obtain an analytical solution, then dsolve() of Symbolic MATH toolbox needs to be employed. E..g.:

syms x(t) Dx(t) DDx(t)
Dx = diff(x, t);
DDx = diff(Dx, t);
M = [??];
K = [??];
EQN = DDx==inv(M)*(F-K*x);
SOL = dsolve(EQN, x(0)==??, Dx(0)==??)

Good luck

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