How can i solve these systems of ODE
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samuel okeleye
le 21 Jan 2015
Commenté : Zoltán Csáti
le 1 Avr 2015
(d^3 f)/(dη^3 )=-1/2.f(η).(d^2 f)/(dη^2 )-Grθ(η)…….. (1)
(d^2 θ)/(dη^2 )=-Pr.f(η). dθ/dη…………………….. (2)
(d^2 ϕ)/(dη^2 )=-1/2 Sc.f(η). dϕ/dη……….………… (3)
Gr, Sc and Pr are constants.
Domain is η from zero to infinity and I want the iteration to stop the moment the difference is 〖 10〗^(-6)
Boundary conditions f'(0)=0,θ(0)=1 and ϕ(0)=1 f'(∞)=1,θ(∞)=0 and ϕ(∞)=0
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Zoltán Csáti
le 22 Jan 2015
These are typical boundary layer equations. There are several strategies to tackle it. The two main solution methods: truncate it to some finite [0 L] interval or solve it on the semi-implicit domain. I recommend you the chebfun library because it is very easy to use. You can also use the built-in bvp4c function which is based on this article. There is also an example for the Falkner-Skan problem in it on page 16.
3 commentaires
Zoltán Csáti
le 23 Jan 2015
Well, I recommend you the following.
- Download chebfun
- Install it
- Open it's GUI
- Type the equations
- Solve it
If you need any help, feel free to write.
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Zoltán Csáti
le 31 Mar 2015
Well, you have to solve the system of BVPs several times for each different values of Gr, Pr and Sc. Then you can plot the data in one figure (see plot command) and can also add a legend. You may also put an arrow representing the effect of the different parameter values on the boundary layer. These can either be done programatically or by using the interactive tools.
Sorry for not answering earlier, but the comments - in contrast to the answers - are not sent to my e-mail address.
2 commentaires
Zoltán Csáti
le 1 Avr 2015
I recommend you the Department of Fluid and Heat Engineering , because of your specialization. I suggest you to gather information about the university and the research area here and if you take it seriously, I can ask the department if they need a researcher or not.
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