Problem 4(a)

Br. Marius
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Problem 4(a) Feb 17, 2016 18:46:29 GMT

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Post by Br. Marius on Feb 17, 2016 18:46:29 GMT

I'm somewhat confused by this problem, and I think it's my weakness in math. Is it really as straightforward as going through the derivation for the Reynold's Transport Theorem and applying Leibnitz's theorem? I'm basing my derivation from the statement:

\(\frac{D}{Dt}B_{sys}=\frac{D}{Dt}\int\rho bdV+\int\rho b(\vec{u}\cdot\vec{n})dA\)

Last Edit: Feb 17, 2016 18:46:31 GMT by Br. Marius

steven Guest	Problem 4(a) Feb 18, 2016 3:05:16 GMT Quote Select Post Deselect Post Link to Post Back to Top Post by steven on Feb 18, 2016 3:05:16 GMT No, i don't think it is that straight forward, after all, we have to associate material region to arbitrary region.

Br. Marius Administrator Posts: 126	Problem 4(a) Feb 18, 2016 3:10:55 GMT Quote Select Post Deselect Post Link to Post Member Give Gift Back to Top Post by Br. Marius on Feb 18, 2016 3:10:55 GMT Agreed. I have the problem almost finished--my work is attached.hw1.pdf (127.32 KB)

Br. Marius Administrator Posts: 126	Problem 4(a) Feb 18, 2016 5:13:34 GMT Quote Select Post Deselect Post Link to Post Member Give Gift Back to Top Post by Br. Marius on Feb 18, 2016 5:13:34 GMT Fully complete homework.enae674_hw1.m (2.88 KB)hw1.pdf (179.95 KB)

Post by Br. Marius on Feb 17, 2016 18:46:29 GMT

Post by steven on Feb 18, 2016 3:05:16 GMT

Post by Br. Marius on Feb 18, 2016 3:10:55 GMT

Post by Br. Marius on Feb 18, 2016 5:13:34 GMT

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