Courses:

Unified Engineering I, II, III, & IV >> Content Detail



Fluid Mechanics



Fluid Mechanics

Amazon logo When you click the Amazon logo to the left of any citation and purchase the book (or other media) from Amazon.com, MIT OpenCourseWare will receive up to 10% of this purchase and any other purchases you make during that visit. This will not increase the cost of your purchase. Links provided are to the US Amazon site, but you can also support OCW through Amazon sites in other regions. Learn more.

This section contains documents created from scanned original files and other documents that could not be made accessible to screen reader software. A "#" symbol is used to denote such documents.



Instructor


Prof. Mark Drela



Learning Objectives


16.01-16.04 Fluid Mechanics (PDF)



Textbooks


Amazon logo Anderson, John D. Fundamentals of Aerodynamics. 3rd ed. New York, NY: McGraw-Hill, 2001. ISBN: 0072373350.

Table Organization



16.01-16.02



Lec #TOPICSCONCEPT QUESTIONSMUDDY POINTSREADINGSASSIGNMENTS / SOLUTIONS
F1Introductory Concepts (PDF)F1-F11 Concept Questions (PDF)(PDF)Anderson. Sections 1.1 (optional), 1.2-1.4.Problem F1 (PDF)

Solution F1 (PDF)#

Survey Results (PDF)
F2Hydrostatics (PDF)(PDF)Anderson. Section 1.9.
F3Aerodynamic Forces and Moments (PDF)(PDF)Anderson. Sections 1.5-1.6.Problem F3 (PDF)

Solution F3 (PDF)#
F4Dimensional Analysis and Similarity (PDF)(PDF)Anderson. Section 1.7.Problem F4 (PDF)

Solution F4 (PDF)#
F5Reynolds and Mach Number (PDF)(PDF)Anderson. Sections 1.10, 1.11.Problem F5 (PDF)

Solution F5 (PDF)#
F6Control Volume, Mass Conservation (PDF)(PDF)Anderson. Sections 2.3-2.4.Problem F6 (PDF)

Solution F6 (PDF)#
F7Momentum Conservation (PDF)(PDF)Anderson. Section 2.5.Problem F7 (PDF)

Solution F7 (PDF)#
Math ReviewDiv, Curl Review (Gauss, Stokes Theorems) (PDF)

Grad Review (Gradient Theorem) (PDF)
F8Streamlines, Pathlines, Streaklines (PDF)(PDF)Anderson. Section 2.11.Problem F8 (PDF)

Solution F8 (PDF)#
F9Momentum Integral Applications (PDF)(PDF)Anderson. Section 2.6.
F10Substantial Derivative (PDF)(PDF)Anderson. Sections 2.9-2.10.Problem F10 (PDF)

Solution F10 (PDF)#
F11Vorticity and Circulation (PDF)(PDF)Anderson. Sections 2.12-2.13.Problem F11 (PDF)

Solution F11 (PDF)#
F12Stream Function and Velocity Potential (PDF)F12-F17 Concept Questions (PDF)(PDF)Anderson. Sections 2.14-2.15.Problem F12 (PDF)

Solution F12 (PDF)#
F13Bernoulli's Equation (PDF)(PDF)#Anderson. Sections 3.2-3.3.Problem F13 (PDF)

Solution F13 (PDF)#
F14Incompressible and Irrotational Flows (PDF)#(PDF)Anderson. Section 3.7.Problem F14 (PDF)

Solution F14 (PDF)#
F15Sources, Sinks and Doublets (PDF)(PDF)Anderson. Sections 3.9-3.12.
F16Vortex, Lifting Flow (PDF)(PDF)Anderson. Sections 3.14-3.16.Problem F16 (PDF)

Solution F16 (PDF)#
F17Flowfield Prediction (PDF)(PDF)#Anderson. Section 3.17.Problem F17 (PDF)

Solution F17 (PDF)#
F18Lift Prediction, Vortex Sheets (PDF)(PDF)Anderson. Section 3.17.Problem F18 (PDF)

Solution F18 (PDF)#
F19Airfoils (PDF)(PDF)Anderson. Sections 4.1-4.3.Problem F19 (PDF)

Solution F19 (PDF)#
F20Airfoils: Detailed Look (PDF)Anderson. Sections 3.1-3.3.

Airfoils and Airflow
Problem F20 (PDF)

Solution F20 (PDF)#
F21Airfoil Polar Relations (PDF)(PDF)Problem F21 (PDF)

Solution F21 (PDF)#



16.03-16.04



LEC #TOPICSCONCEPT QUESTIONSMUDDY POINTSREADINGSASSIGNMENTS / SOLUTIONS
F1Formation of Lifting Flow (PDF)F1-F10 Concept Questions (PDF)(PDF)Anderson. Sections 4.5-4.6.Problem F1 (PDF)

Solution F1 (PDF)#
F2Airfoil Vortex Sheet Models, Thin Airfoil Analysis Problem (PDF)(PDF)Anderson. Sections 4.4, 4.7.Problem F2 (PDF)

Solution F2 (PDF)#
F3Thin Airfoil Analysis Problem (cont.) (PDF)(PDF)Anderson. Section 4.8.Problem F3 (PDF)

Solution F3 (PDF)#
F4Thin Airfoil Theory Application: Analysis Example (PDF)(PDF)Anderson. Sections 4.8-4.9.Problem F4 (PDF)

Solution F4 (PDF)#
F5Introduction to 3D Wings, 2D and 3D Coefficients (PDF)(PDF)Anderson. Section 5.1.Problem F5 (PDF)

Solution F5 (PDF)#
F63D Vortex Filaments, Lifting Line Theory (PDF)#(PDF)Anderson. Section 5.1.Problem F6 (PDF)

Solution F6 (PDF)#
F7Elliptical Lift Distribution (PDF)(PDF)Anderson. Section 5.3.1.Problem F7 (PDF)

Solution F7 (PDF)#
F8Wing Geometry, Wing Design Problem (PDF)(PDF)Anderson. Sections 5.3.2-5.3.3.Problem F8 (PDF)

Solution F8 (PDF)#
F9General Wings (PDF)(PDF)Anderson. Sections 5.3.2-5.3.3.Problem F9 (PDF)

Solution F9 (PDF)#
F10Aircraft Performance Analysis (PDF)

Drag Estimation Table (PDF)#
(PDF)Problem F10 (PDF)

Solution F10 (PDF)#
F11Introduction to Compressible Flows, Thermodynamic Concepts (PDF)F11-F20 Concept Questions (PDF)(PDF)Anderson. Sections 7.1-7.2.Problem F11 (PDF)

Solution F11 (PDF)#
F12Energy Conservation (PDF)(PDF)Anderson. Sections 2.7, 7.4-7.5.Problem F12 (PDF)

Solution F12 (PDF)#
F13Stagnation Quantities, Introduction to Shock Waves (PDF)(PDF)Anderson. Sections 7.5-7.6.Problem F13 (PDF)

Solution F13 (PDF)#
F14Normal Shock Waves, Speed of Sound (PDF)(PDF)Anderson. Sections 8.1-8.3.Problem F14 (PDF)

Solution F14 (PDF)#
F15Mach Number Relations, Normal Shock Properties (PDF)(PDF)Anderson. Sections 8.4, 8.6.Problem F15 (PDF)

Solution F15 (PDF)#
F16Shock Losses, Compressible Flow Pitot-Tube (PDF)Anderson. Sections 8.6-8.7.Problem F16 (PFD)

Solution F16 (PDF)#
F17Oblique Shocks (PDF)(PDF)Anderson. Sections 9.1-9.2.Problem F17 (PDF)

Solution F17 (PDF)#
F18Prandtl-Meyer Waves, Shock Expansion Theory (PDF)(PDF)Anderson. Sections 9.6-9.7.Problem F18 (PDF)

Solution F18 (PDF)#
F19Compressible Channel Flow (PDF)(PDF)Anderson. Sections 10.1-10.2.Problem F19 (PDF)

Solution F19 (PDF)#
F20Laval Nozzle Flows (PDF)(PDF)Anderson. Section 10.3.Problem F20 (PDF)

Solution F20 (PDF)#

 








© 2009-2020 HigherEdSpace.com, All Rights Reserved.
Higher Ed Space ® is a registered trademark of AmeriCareers LLC.