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.1=..Title Slide
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.2=..Four Descriptions of Matter
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.3=..Quantum Physics
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.4=..Particle Dynamics
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.5=..Statistical Physics
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.6=..Continuum Physics
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.7=..Computational Fluid Dynamics (CFD)
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.8=..Variables for CFD Navier-Stokes Equations
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.9=..The Continuity Equation in CFD
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10=..The Momentum Equation in CFD
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11=..Energy Equations
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12=..Discretizing Problem
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13=..Example of a (non-uniform) grid
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14=..NASA's estimate of computing needs
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15=..Time to LU Simulate CFD
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16=..Time to ST Simulate CFD
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17=..Time to BT Simulate CFD
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18=..Increase in memory and CPU to solve CFD
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19=..FLOPS and memory requirements
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20=..Examining CFD Equations
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21=..Reynolds Number (R)
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22=..Approximation Levels for CFD
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23=..Implications of Reynolds Number
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24=..Laminar Flow
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25=..Why are Boundaries Important
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26=..Reynolds Averaged Equations
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27=..(continued)
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28=..(continued)
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29=..Large R Region - Boundary Layer Analysis
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30=..(continued)
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31=..Thin-layer and Parabolized Equations
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32=..High Viscosity Equations
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33=..One Dimension Equation
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34=..(continued)
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35=..Where do Computer Scientists Fit in?
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36=..Computational Issues