CLASS SCHEDULE 2016 FALL

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. 22	Definition fluid; continuum hypothesis; fluid properties (Text 1.1 - 1.5, Lecture Ch.1) Example1: Density (1.36) Example2: Ideal gas
	23	No lab
2	24	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 (1.74) Example2: Shear stress Example3: Surface tension (1.127) Example4: Shear Stress (1.80)	1.41 (g,r,SG) 1.51 (ideal gas)
	25	No lab
3, L1	26	Fluid Mechanics: AFD, EFD, and CFD (Download)	1.82 (Shear stress) 1.129 (Surface tension)
4	29	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 variation (2.8) Example2: Pressure variation (2.23) Example3: Pressure transmission (2.68) Example4: Pressure variation (2.10)	2.17 (pressure variation) 2.21 (pressure variation)
	30	No lab
5	31	Example1: u-tube manometer Example2: Differential manometer Hydrostatic forces on plane surfaces (Text 2.8-2.9, Lecture Ch.2) Concepts of EFD Lab 1	2.37 (u-tube manometer) 2.43 (differential manometer)
	Sep. 1	No lab
6, L2	2	Experimental Methodology and Uncertainty Assessment Procedures: EFD EFD Pre-test
	5	Labor Day: No Class
L3	6	EFD Lab1 - Data Reduction Sheet Due Sep. 12, Report Due Sep. 20; 5:00 p.m.
7	7	Continued Example1: Plane surface (1) Example2: Plane surface (2)	2.76, 2.82 (plane surface)
L3	8	EFD Lab1 - Data Reduction Sheet Due Sep. 14, Report Due Sep. 22; 5:00 p.m.
8	9	Hydrostatic forces curved surfaces (horizontal and vertical components); buoyancy; hydrometer (Text 2.10-2.11, Lecture Ch.2) Example1: Curved surface (1) Example2: Curved surface (2) Example3: Curved surface (4) (2.119)	2.129, 2.122(curved surface)
9	12	Continued Example1: Curved surface Stability immersed and floating bodies (Text 2.11, Lecture Ch.2) Example2: Buoyancy (2.136) Example3: Stability (block)	2.145, 2.146 (buoyancy)
L3	13	EFD Lab1 - Data Reduction Sheet Due Sep. 19 Report Due Sep. 27; 5:00 p.m.
10	14	Continued Example1: Stability Example2: Stability (cylinder) Rigid body translation and rotation (Text 2.12, Lecture Ch.2)	SP.1, SP.2 (stability)
L3	15	EFD Lab1 - Data Reduction Sheet Due Sep. 21, Report Due Sep. 29; 5:00 p.m.
11	16	Continued Example1: Translation (1) Example2: Translation (2) Example3: Translation (3) Example4: Rotation (1) Example5: Rotation (2) Example6: Rotation (3) (2.163) Newton's 2^nd Law for a Fluid, Steamline Coordinates, Bernoulli equation (Text 3.1-3.4, Lecture Ch.3)	2.151 (translation) 2.159 (rotation)
12	19	Continued Example1: Bernoulli equation (along streamline) (3.3) Example2: Bernoulli equation (normal to streamline) (3.11)	3.2 (Bernoulli Eq., along streamline) 3.14 (Euler Eq., normal to streamline)
L4	20	EFD Lab2 - Data Reduction Sheet Due Sep. 26, Report Due Oct. 4; 5:00 p.m.
13	21	Static Dynamic and total pressure, applications Bernoulli equation, Flow Rate (Text 3.5-3.6, Lecture Ch.3) Example1: Bernoulli equation (Q) Example2: Bernoulli equation (3.51) Example3: Bernoulli equation (3.112) Concepts of EFD Lab 2 & CFD Lab 1	3.8 (Euler equation along streamline) 3.76 (Bernoulli equation, Q)
L4	22	EFD Lab 2 - Data Reduction Sheet Due Sep. 29, Report Due Oct. 6; 5:00 p.m.
14	23	Limitations Bernoulli equation (Text 3.7-3.9, Lecture Ch.3) Example1: Bernoulli equation (along streamline) Example2: Bernoulli equation (circular disk) (3.107) Example3: Bernoulli equation (channel flow) (3.113) Fluid kinematics, velocity, acceleration (Text 4.1 - 4.2, Lecture Ch.4)	3.99 (Bernoulli equation) 3.132 (Bernoulli equation, channel flow)
15	26	Continued, fluid kinematics, velocity, acceleration Example1: Velocity (4.4) Example2: Velocity Flow classification	4.3, 4.8 (velocity)
L4	27	EFD Lab2 - Data Reduction Sheet Due Oct. 3, Report Due Oct. 11; 5:00 p.m.
16	28	Continued Example3: Acceleration (1) (4.21) Example4: Acceleration (2) Example5: Acceleration (3) Control volume approach and RTT (Text 4.3-4.5, Lecture Ch.4)	4.23, 4.33 (acceleration)
L4	29	EFD Lab2 - Data Reduction Sheet Due Oct. 5, Report Due Oct. 13; 5:00 p.m.
17	30	Example1: RTT (1) (4.73) Control Volume Analysis, continuity equation (Text 5.1, Lecture Ch.5) Example2: Continuity Example3: Continuity	4.63 (RTT) 5.3 (continuity)
	2	Problem Solving Session Time: 3:30-5:30pm Location: 1505 SC
18	Oct. 3	Continued Example1: Steady flow continuity (5.23) Example2: Continuity Example3: Falling cylinder	5.16 (steady flow continuity) 5.26 (unsteady flow continuity)
	4	No lab
19	5	Momentum Equation (Text 5.2, Lecture Ch.5) Example1: Momentum, nozzle (5.47) Example2: Momentum, bend	5.37 (momentum, bend) 5.39 (momentum, nozzle/jet)
	6	No lab
20, L5	7	Introduction to Computational Fluid Dynamics CFD Pre-test
	9	Problem Solving Session Time: 4:00-6:00pm Location: 1505 SC
21	10	Review 1
L6	11	CFD PreLab1 - No Report
22	12	EXAM 1 Time: 11:30 am - 12:20 pm Location: 100PH
L6	13	CFD PreLab1 - No Report
23	14	Continued Momentum equation Example1: Momentum, jet (5.61) Example2: Momentum, jet Example3: Moving vane	5.46 (momentum, pipe) 5.78 (momentum, channel)
24	17	Energy equation (Text 5.3-5.5, Lecture Ch.5) Example1: Head loss (5.104)	5.98 (head loss) 5.102 (head loss)
L7	18	CFD Lab1 - Report Due Nov. 1; 5:00 p.m.
25	19	Continued Example1: Energy, pump (5.118) Example2: Energy, pump (5.119) Concept of Hydraulic and Energy Grade Lines	5.114 (energy, turbine) 5.117 (energy, pump)
L7	20	CFD Lab1 - Report Due Nov. 3; 5:00 p.m.
26	21	Application of the Energy, Momentum, and Continuity Equations in Combination Example1: Energy + momentum (1) Example2: Energy + momentum (2) Example3: Sluice gate	5.124, 5.128 (energy + momentum)
27	24	Differential Analysis, relative motion, vorticity, continuity, and stream function (Text 6.1-6.2, Lecture Ch.6) Example1: Continuity+vorticity (6.4) Example2: Streamfunction (6.26)	6.12 (continuity+vorticity) 6.17 (streamfunction)
L8	25	EFD Lab3 - Data Reduction Sheet Due Oct. 31, Report Due Nov. 8; 5:00 p.m.
28	26	Momentum equation and differential analysis of fluid flow (Text 6.3, 6.8-6.11, Lecture Ch.6) Example1: Exact solutions of NS (Couette flow) Concepts of EFD Lab 3 & CFD Lab 2	6.79 (Couette flow) 6.96 (Laminar Pipe)
L8	27	EFD Lab3 - Data Reduction Sheet Due Nov. 2, Report Due Nov. 10; 5:00 p.m.
29	28	Continued Example1: Exact solutions of NS (Poiseuille flow) (6.104) Example2: Pipe flow (6.89_5e)	6.89, 6.93 (Pipe flow)
	30	Problem Solving Session Time: 3:30-5:30pm Location: 1505 SC
30	31	Dimensional homogeneity; dimensional analysis; Pi theorem; Important non-dimensional parameters (Text 7.1-7.7, Lecture Ch.7) Example1: Pi parameters (1) (7.9) Example2: Pi parameters (2) (7.13)	7.7, 7.15 (Pi parameters)
L8	Nov. 1	EFD Lab3 - Data Reduction Sheet Due Nov. 7, Report Due Nov. 15; 5:00 p.m.
31	2	Similarity and model testing (Text 7.8-7.11, Lecture Ch.7) Example1: Re similarity (1) (7.49) Example2: Fr similarity (1) (7.44) Example3: Re similarity (2) Example4: Fr similarity (2) Example5: St similarity (7.84)	7.66 (Re similarity) 7.58 (Fr similarity)
L8	3	EFD Lab3 - Data Reduction Sheet Due Nov. 9, Report Due Nov. 17; 5:00 p.m.
32	4	EFD Lab3 concepts: drag calculation Viscous Flow in Pipes, entrance and developing flow, laminar flow, friction factor (Text 8.1-8.2, Lecture Ch.8) Example1: Laminar pipe flow	8.21 (laminar) 8.25 (laminar) Due November 11
	6	Problem Solving Session Time: 4:00-6:00pm Location: 1505 SC
33	7	Review 2
L9	8	CFD PreLab2 - No Report
34	9	EXAM 2 Time: 11:30 am - 12:20 pm Location: 100PH
L9	10	CFD PreLab2 - No Report
35	11	Turbulent flow (Text 8.3, Lecture Ch.8) Example1: Turbulent pipe flow (8.29) Example2: Turbulent pipe flow	8.28, 8.31 (turbulent)
36	14	Roughness, application pipe systems (Text 8.4-8.7, Lecture Ch.8) Example1: Friction factor Example2: Head loss (8.53) Example3: Friction factor Example4: Head loss (8.47)	8.44 (rough pipe) 8.45 (smooth pipe)
L10	15	CFD Lab2 - Report Due December 2; 5:00 p.m.
37	16	Roughness, application pipe systems continued, Example1: Head loss (8.49) Example2: Flow rate Example3: Pipe diameter (1) Example4: Pipe diameter (2) Example5: Pipe diameter (3) (8.104)	8.89 (flow rate) 8.102 (pipe diameter)
L10	17	CFD Lab2 - Report Due Dec. 5; 5:00 p.m.
38	18	Minor losses, Example1: Minor losses (1) Example2: Minor losses (2) Example3: Minor losses (3) Example4: Minor losses (4) (8.79) Example5: Minor losses (5) (8.61) Example6: Minor losses (6) (8.98)	8.71, 8.101 (minor losses)
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	22
	23	Thanksgiving Recess
	24
	25
39	28	Flow over immersed bodies, lift and drag, boundary layer theory (Text 9.1-9.2, Lecture Ch.9) Slide #1 Example1: Laminar BL (1) Example2: Laminar BL (2) Summary of EFD and CFD study for the flow around Clark-Y airfoil	9.13, 9.20 (laminar BL)
	29	No lab
40	30	Laminar boundary layer, continued, and turbulent boundary layer Slide #2 Example2: Transitional BL drag (9.26) Example3: Turbulent BL drag	9.49 (laminar BL drag) 9.54 (turbulent BL drag)
	Dec. 1	No lab
41	2	Turbulent boundary layer, continued Example1: Turbulent BL velocity profile	SP.4, SP.5 (turbulent flat plate drag)
	4	Problem Solving Session Time: 3:30-5:30pm Location: 1505 SC
42	5	Bluff body drag and lift (Text 9.3-9.5, Lecture Ch.9) Example1: Turbulent BL drag (1) Example2: Turbulent BL drag (2) Example3: Stokes flow Example4: Drag (1) (9.54) Example5: Drag-roughness	9.58, 9.88 (drag)
	6	No lab
43	7	Review3	9.113, 9.120 (lift)
	8	No lab
44	9	Post-test, Post-survey
	11	Problem Solving Session Time: 4:00-6:00pm Location: 1505 SC
	12	FINAL EXAM Time: 8:00 PM – 10:00 PM Location: C20 PC