Illa.3.13 becomes V. pV = 0 or alternatively V. pV = pỹ ·V = 0 . That is to say avy + ax av- 2 = 0. In two dimensions, we have: az ду av, av Ша.3.13-1 %3D ду

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Illa.3.13 becomes V. pV = 0 or alternatively V. pV = pỹ ·V = 0 . That is to say<br>avy<br>+<br>ax<br>av-<br>2 = 0. In two dimensions, we have:<br>az<br>ду<br>av,<br>av<br>Ша.3.13-1<br>%3D<br>ду<br>

Extracted text: Illa.3.13 becomes V. pV = 0 or alternatively V. pV = pỹ ·V = 0 . That is to say avy + ax av- 2 = 0. In two dimensions, we have: az ду av, av Ша.3.13-1 %3D ду

36. The general form of the continuity equation that is independent of the coordi-<br>nate system and applies to steady or unsteady, compressible or incompressible,<br>viscous or inviscid flow is given by Equation III..3.13. Which term of this equa-<br>tion represents the mass flux? Show the units of the mass flux term. Apply this<br>equation to a compressor, which is steadily delivering compressed air to a reser-<br>voir.<br>

Extracted text: 36. The general form of the continuity equation that is independent of the coordi- nate system and applies to steady or unsteady, compressible or incompressible, viscous or inviscid flow is given by Equation III..3.13. Which term of this equa- tion represents the mass flux? Show the units of the mass flux term. Apply this equation to a compressor, which is steadily delivering compressed air to a reser- voir.

Jun 11, 2022

SOLUTION.PDF

Illa.3.13 becomes V. pV = 0 or alternatively V. pV = pỹ ·V = 0 . That is to say avy + ax av- 2 = 0. In two dimensions, we have: az ду av, av Ша.3.13-1 %3D ду

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