CLASS SCHEDULE 2009 FALL Click here to see 2010 Fall Schedule.

Class # or Lab #	Date	Important Concepts (Section # in Text Reading, Lecture note) Examples/Lab Activities	Problems Assigned, due next class day: *by 5:00 pm*
1	Aug 24	Definition fluid; continuum hypothesis; fluid properties (Text 1.1 - 1.5, Lecture Ch.1) Example: Density (1.29)	1.28 (g,r,SG) 1.42 (ideal gas)
2	26	Viscosity, shear stress and rate of strain; compressibility; vapor pressure/cavitation; surface tension and capillary effects; flow classification (Text 1.6-1.11, Lecture Ch.1) Example1: Shear stress 1.58 Example2: Surface tension (1.103)	1.64 (t) 1.77 (E_v)
3, L1	28	Fluid Mechanics: AFD, EFD, and CFD	1.90 (p_v) 1.100 (s)
4	31	Pressure definition, force, and transmission; absolute/gage/vacuum; pressure variation with elevation liquids/gases; pressure measurement (barometer, piezometer, manometers) (Text 2.1-2.7, Lecture Ch.2) Example1: pressure transmission 2.12 Example2: standard atmosphere 2.18	2.9 (pressure variation) 2.16 (gases; standard atmosphere)
5, L2	Sep 2	Experimental Methodology and Uncertainty Assessment Procedures: EFD Pre-test
6	4	Hydrostatic forces on plane surfaces (Text 2.8-2.9, Lecture Ch.2) Example1: Manometer 3.27 Example2: differential manometer 3.49 Concepts of EFD Lab 1	2.31 (u-tube manometer) 2.41 (differential manometer) Quiz #1
	7	Labor Day: No Class
L3	8	EFD Lab1 (1)
7	9	Continued Example1: Plane surface 3.69 Example2: Plane surface 3.73	2.61, 2.68 (plane surface)
L3	10	EFD Lab1 (2)
8	11	Hydrostatic forces curved surfaces (horizontal and vertical components); buoyancy; hydrometer (Text 2.10-2.11, Lecture Ch.2) Example1: Curved surface (1) 3.137 Example2: Curved surface (2) 3.94 Example3: Curved surface (2) (2.81) Example4: Curved surface (3) (2.86)	~~2.92, 2.95 (curved surface)~~ 2.84, 2.92 (curved surface)
9	14	Stability immersed and floating bodies (Text 2.11, Lecture Ch.2) Example: Buoyancy (2.97)	2.98 (buoyancy) 2.105 (hydrometer)
L3	15	EFD Lab1 (3)
10	16	Continued Example: Stability Rigid body translation and rotation (Text 2.12, Lecture Ch.2)	SP.1, SP.2 (stability) Quiz #2
L3	17	EFD Lab1 (4)
11	18	Continued Example1: Translation (1) (2.114) Example2: Translation (2) Example3: Translation (3) Example4: Rotation (1) Example5: Rotation (2)	2.111 (translation) 2.117 (rotation)
12	21	Newton's 2^nd Law for a Fluid, Steamline Coordinates, Bernoulli equation (Text 3.1-3.4, Lecture Ch.3) Example1: Bernoulli equation (along streamline) (3.3) Example2: Bernoulli equation (normal to streamline) (3.16)	3.4 (along streamline) 3.13 (normal to streamline)
L4	22	EFD Lab2 (1)
13	23	Static Dynamic and total pressure, applications Bernoulli equation, Flow Rate (Text 3.5-3.6, Lecture Ch.3) Example1: Bernoulli equation (Q) (3.53) Example2: Bernoulli equation (along streamline) Concepts of EFD Lab 2 & CFD Lab 1	3.49 (Bernoulli equation, Q) 3.51 (Bernoulli equation, static and total pressure)
L4	24	EFD Lab2 (2)
14	25	Limitations Bernoulli equation (Text 3.7-3.9, Lecture Ch.3) Example1: Bernoulli equation (Sluice gate) (3.112) Example2: Bernoulli equation (along streamline) Fluid kinematics, velocity, acceleration (Text 4.1 - 4.2, Lecture Ch.4)	3.75 (Bernoulli equation, cavitation) 3.101 (Bernoulli equation, channel flow) Quiz #3
15	28	Continued, fluid kinematics, velocity, acceleration Example: Velocity (4.8)	4.5, 4.37 (velocity)
L4	29	EFD Lab2 (3)
16	30	Flow classification Example1: Acceleration (1) (4.36) Example2: Acceleration (2)	4.24, 4.33 (acceleration) Quiz #4
L4	Oct 1	EFD Lab2 (4)	EFD Lab1 Report Due: 5:00 p.m.
17	2	Review 1
18	5	EXAM 1
19, L5	7	Introduction to Computational Fluid Dynamics: CFD Pre-test
20	9	Control volume approach and RTT (Text 4.3-4.5, Lecture Ch.4) Example1: RTT (4.71) Example2: RTT (4.72) Control Volume Analysis, continuity equation (Text 5.1) Example: Continuity (5.12)	5.9, 5.17 (control volume)
21	12	Continued, continuity equation Example1: Steady flow continuity (5.18) Example2: Unsteady flow continuity (5.30) Example3: Falling cylinder	5.19, 5.25 (continuity)
L6	13	CFD PreLab1 (1)
22	14	Momentum Equation (Text 5.2, Lecture Ch.5) Example1: Momentum, bend (5.40)	5.45 (momentum, bend) 5.46 (momentum, nozzle)
L6	15	CFD PreLab1 (2)
23	16	Continued Example1: Bend (5.67) Example2: Vane 5.62 Example3: Jet (5.57) Example4: Sluice gate (5.55) Example5: Moving vane	5.41 (nozzle) 5.64, 5.65 (vane) Quiz #5
24	19	Energy equation (Text 5.3-5.5, Lecture Ch.5) Example1: Head loss (5.95)	5.96 (head loss) 5.100 (head loss)
L7	20	CFD Lab1 (1)	EFD Lab2 Report Due: 5:00 p.m.
25	21	Concept of Hydraulic and Energy Grade Lines Example1: Energy, pump (5.109) Example2: Energy, turbine (5.108)	5.113 (energy, turbine) 5.111 (energy, pump) Quiz #6
L7	22	CFD Lab1 (2)
26	23	Application of the Energy, Momentum, and Continuity Equations in Combination Example1: Bend (5.128) Example2: Sluice gate	SP-1 (energy + momentum) SP-2 (energy + momentum)
27	26	Differential Analysis, relative motion, vorticity, continuity, and stream function (Text 6.1-6.2, Lecture Ch.6) Example1: Fluid kinematics and vorticity (6.4) Example2: Continuity (6.23)	6.7 (vorticity) 6.13 (continuity)
L8	27	EFD Lab3 (1)
28	28	Momentum equation and differential analysis of fluid flow (Text 6.3, 6.8-6.11, Lecture Ch.6) Example1: Cotinuity (6.24) Example2: Exact solutions of NS (Couette flow) (6.93) Concepts of EFD Lab 3 & CFD Lab 2	6.89 (Couette flow) 6.85 (Flow between fixed plates)
L8	29	EFD Lab3 (2)
29	30	Continued Example1: Exact solutions of NS (Rotating cylinder) (6.102) Example2: Exact solutions of NS (Poiseuille flow) (6.86)	6.100 (Poiseuille flow) 6.104 (pipe flow) Quiz #7
30	Nov 2	Dimensional homogeneity; dimensional analysis; Pi theorem; Important non-dimensional parameters (Text 7.1-7.7, Lecture Ch.7) Example1: Pi parameters (7.18) Example2: Pi parameters (7.22)	7.16, 7.23 (Pi parameters) Quiz #8
L8	3	EFD Lab3 (3)
31	4	Similarity and model testing (Text 7.8-7.11, Lecture Ch.7) Example1: Re similarity (1) (7.56) Example2: Fr similarity (1) (7.55) Example3: Re similarity (2) Example4: Fr similarity (2) EFD Lab3 concepts: drag calculation	7.43 (Re similarity) 7.75 (Fr similarity)
L8	5	EFD Lab3 (4)	CFD Lab1 Report Due: 5:00 p.m.
32	6	Review 2	Quiz #9
33	9	EXAM 2
L9	10	CFD PreLab2 (1)
34	11	Viscous Flow in Pipes, entrance and developing flow, laminar flow, friction factor (Text 8.1-8.2, Lecture Ch.8) Example1: 8.17 Example2: 8.19	8.22, 8.24 (laminar)
L9	12	CFD PreLab2 (2)
35	13	Turbulent flow (Text 8.3, Lecture Ch.8) Example1: 8.25 Example2: 8.33	8.35, 8.39 (turbulent)
36	16	roughness, application pipe systems (Text 8.4-8.7, Lecture Ch.8) Example1: Friction factor Example2: Friction factor (8.49) Example3: 8.36 Example4: 8.39	8.48 (f) 8.74 (head loss)
L10	17	CFD Lab2 (1)
37	18	Continued, Example1: Head loss (8.50) Example2: Flow rate Example3: Pipe diameter Example4: Pipe diameter Example5: 8.81 (Diameter)	SP.3 (flow rate) 8.80 (pipe diameter)
L10	19	CFD Lab2 (2)	EFD Lab3 Report Due: 5:00 p.m.
38	20	Minor losses, Example1: Minor losses Example2: Minor losses Example3: Minor losses Example4: Minor losses (8.70) Example5: 8.72 Example6: 8.77	8.81 (minor losses) 8.99 (minor losses)
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	25	Thanksgiving Recess
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39	30	Flow over immersed bodies, lift and drag, boundary layer theory (Text 9.1-9.2, Lecture Ch.9) Example1: Laminar BL Example2: Laminar BL Summary of EFD and CFD study for the flow around Clark-Y airfoil	9.13, 9.14 (laminar BL) Quiz #10
40	Dec 2	Laminar boundary layer, continued Example1: Laminar BL drag (9.46) Example2: Laminar BL drag (9.36)	9.48 (laminar drag) 9.51 (transitional drag)
41	4	Turbulent boundary layer Example1: Turbulent BL velocity profile Example2: Turbulent BL velocity profile	SP.4, SP.5 (turbulent flat plate drag) Quiz #11
42	7	Bluff body drag and lift (Text 9.3-9.5, Lecture Ch.9) Example1: Turbulent BL drag Example2: Turbulent BL drag Example3: Stokes flow Example4: Drag (9.61) Example5: Drag and lift (9.95)	9.68 (drag) 9.71 (drag)
43	9	Review3	9.45 (Stokes flow) 9.101 (lift)
44	11	Post-test, Post-survey	CFD Lab2 Report Due: 5:00 p.m.
		Final Exam: 12/14/2009 2:15 P.M. (100 PH)