Cheatography
https://cheatography.com
this cheat sheet covers balance equations and stress
This is a draft cheat sheet. It is a work in progress and is not finished yet.
Linear momentum - mass system
Reynold's Theorem: the bridge. Mass system to control volume. Lagrang to Eulerian |
if t=t: Bsys=Bcv, CV=Sys, occupy the same space |
extensive quatities (B): depend on the size of the region. If 𝐵 = 𝑚 then b = 1 If 𝐵 = 𝑚𝑣 then b = 𝑣 |
if t=t +∆t, Bsys≠ Bcv, Cv≠Sys, we use Reynolds here. |
intensive quantities (b): independent of the size |
Flow rate: Q=Av, if p is constant→mass flow rate |
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Reynolds formula
when a moving CV we have w as the relative velocity. w= vb-vcs1
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Forces acting on fluids
dP/dt=ΣFsys=ΣFcv, where P=mv:momentum
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How to set up a cv problem
whats happening, whats gonna cause. What are we trying to solve. |
To draw CV: we think of where you biserts-cut into 2 parts |
In volume: be within the boundaries of CV. Area integral: must bisect the boundaries/surface of CV |
Accummulation? In which integral are we looking. Does the quality act on the surface. Align the flow with dirt vector, |
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mass vs linear momentum
Balance of Mass: Finding flow rates, the relationship velocities and areas. Scalar. (-/+) from scalar product |
Balance of Linear Momentum: Finding relatshs btnw flow properties and forces. Vector. (-/+) from scalar product or direct of vector quantities |
B of mass in B of linear momentum problems to find unknown.
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