https://charlesreid1.com/w/index.php?action=history&feed=atom&title=Momentum_Governing_EquationsMomentum Governing Equations - Revision history2026-06-20T09:32:04ZRevision history for this page on the wikiMediaWiki 1.39.12https://charlesreid1.com/w/index.php?title=Momentum_Governing_Equations&diff=991&oldid=prevAdmin: Created page with "{{Stub}} The momentum governing equation can be obtained from Reynolds Transport Theorem by setting <math>B</math> equal to the momentum, <math> B = \rho \boldsymbol{v} </m..."2010-11-08T00:39:49Z<p>Created page with "{{Stub}} The momentum governing equation can be obtained from <a href="/wiki/Reynolds_Transport_Theorem" title="Reynolds Transport Theorem">Reynolds Transport Theorem</a> by setting <math>B</math> equal to the momentum, <math> B = \rho \boldsymbol{v} </m..."</p>
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The momentum governing equation can be obtained from [[Reynolds Transport Theorem]] by setting <math>B</math> equal to the momentum,<br />
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<math><br />
B = \rho \boldsymbol{v}<br />
</math><br />
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where <math>\boldsymbol{v}</math> is the mass-average velocity of the fluid.<br />
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The material volume associated with the momentum is denoted <math>V_{\rho v}^{M}</math> and is the control volume that moves such that the net flux of momentum across its surface is zero. The surface bounding this material volume is <math>S_{\rho v}^{M}</math>.<br />
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The velocity at which this material volume moves is <math>\boldsymbol{v}</math>, the mass-average volume<br />
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{{GoverningEquations}}</div>Admin