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Question 4 (20 marks)
Laplace’s equation: Determine the distribution of temperature in a rectangular plane section, subject to a temperature distribution around its edges as follows:
The section shape, the boundary temperature distribution section and two chosen nodes are shown in the figure.
The temperature distribution is described by Laplace’s equation. Solving this equation by the finite difference method to nodes 1 and 2 of the mesh shown in the figure. This gives
(233.33 +T2 + 0 100 - 4T1)/h^2 = 2
(333.33 + 250 + 0 + T1 - 4T2)/h^2 = 2
where and are the unknown temperatures at nodes 1 and 2, respectively, and
Rearranging these equations gives
[■(-4&1@1&-4)][■(T_1@T_2 )]=[■(-333.33@-583.33)][■(-4&1@1&-4)][■(T_1@T_2 )]=[■(-333.33@-583.33)]
Solving this equation, we have and .
If we require a more accurate solution of Laplace’s equation, then we must use more nodes and the computation burden increases rapidly. Write a MATLAB script to solve the Laplace’s equation for any number of nodes in a square domain only. Run your codes for number of nodes
4 comentarios
Rik
el 30 de Jun. de 2020
I would almost say good job on posting your homework question, but you forgot to fix the formatting.
You also forgot to ask a question. This is your homework. What did you try?
raizo dono
el 30 de Jun. de 2020
Editada: raizo dono
el 30 de Jun. de 2020
raizo dono
el 30 de Jun. de 2020
Editada: raizo dono
el 30 de Jun. de 2020
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