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I have a system can be described by the second order differential equation in 1, where h is the convective heat transfer coefficient, p is the perimeter (circumference) of the pin, k is the conductive heat transfer coefficient and Ac is the cross-sectional area.
I want to develop a numerical model by applying both a third order Runge Kutta method to the differential equation in equation 1. I want to do this on matlab.

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 Accepted Answer

KSSV
KSSV on 14 Oct 2020

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It can be done both by writitng your own code or using inbuilt functions....
  1. You canget analytical solution using syms, dsolve. Read about them.
  2. You can use ode45 to use Runge-Kutta method using inbuilt functions.
  3. You can search in file exchange/ gogole to get code, so that with few changes you can customise it to your case.
https://in.mathworks.com/matlabcentral/fileexchange/29851-runge-kutta-4th-order-ode
https://in.mathworks.com/matlabcentral/fileexchange/72525-fourth-order-runge-kutta-method
https://matlabgeeks.weebly.com/uploads/8/0/4/8/8048228/runge-kutta-4-order_with_solution.pdf

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rana zain
rana zain on 14 Oct 2020
I am unable to do this for 3rd order range kutta. can someone do the customerizaion for me. I can pay for it as well.
rana zain
rana zain on 14 Oct 2020
i have these codes. but the problem is i am unable to make it according to my equation. I want it to be according to my conditions.

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rana zain
rana zain
on 14 Oct 2020

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rana zain
rana zain
on 14 Oct 2020

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