f14_ps12_fall03 - Unified Engineering Fluids Problem F14...

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Unformatted text preview: Unified Engineering Fluids Problem F14 Fall 2003 F14. �1 (x, y ) and �2 (x, y ) are known to be physically-possible flows (i.e. satisfy mass con­ servation), and their corresponding pressure fields p1 (x, y ) and p2 (x, y ) are known via the Bernoulli equation. a) A third flow is now defined by �3 (x, y ) = �1 + �2 . Explain how you would obtain its corresponding pressure field p3 . b) Yet another flow �4 = � �1 /�x is defined. Is this a physically-possible flow? ...
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This note was uploaded on 01/28/2012 for the course AERO 16.01 taught by Professor Markdrela during the Fall '05 term at MIT.

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