Aerodynamics ASCI 309 Face to face Course Syllabus

Aerodynamics ASCI 309 Face to face Course Syllabus Credit Hours: 3 Credits Academic Term: Term IV: 24.03.2014-25.05.2014 Meetings: Fri 1800-2200 Sat/Sun 0900-1800 28, 29, 30 Mar 2, 3, 4 Location: Instructor: Office Hours: E-mail: Spangdahlem Air Base, Germany; Face to face Dr. Herb Hoffmann Before and after class or by appointment (Central European Time) hoffm7d5@erau.edu Course Description: Students are provided with an opportunity to explore incompressible flow airfoil theory and wing theory. Topics center on: calculation of stall speed, drag and basic performance criteria, configuration changes, high and low speed conditions, special flight conditions, and an introduction to compressible flow. Prerequisites: MATH 112 and PHYS 102. Course Goals: This course is designed to provide students with the technical background necessary to understand the operating limitations and procedures of modern airplanes and to optimize pilot technique by properly defining required tasks. Learning Outcomes: 1. Using SI and British Gravitational System of measurement, solve aeronautical flight mechanic problems involving laws of motion, forces and energy. 2. Identify standard atmospheric variables and their sea level values. Compute atmospheric conditions using the universal gas laws. 1

3. Identify and define the relationships between indicated, calibrated, equivalent and true airspeeds and how they change with altitude and temperature. 4. Describe the effects of velocity, density, area and lift coefficient on lift. Solve stall speed problems and learn airfoil nomenclature and designations. 5. Explain wing stall patterns and factors affecting the stall. As well as explain the aerodynamic characteristics of spins and spin recovery. 6. Explain and describe the effects of flaps, slats, vortex generators and boundary layer devices on lift, drag and pitching moment coefficients. 7. Demonstrate and understand the factors affecting maximum performance events such as best range, max endurance, best glide, max angle climb and max rate of climb. 8. Explain stability, controllability and the factors in high speed flight such as speed ranges, critical Mach number, the Force Divergent Mach number, Mach tuck, control buzz and shockwaves. 9. Demonstrate and discuss the origin and effects of induced drag and methods utilized to reduce induced drag. 10. Explain factors affecting the maneuvering envelope and solve problems involving the turn equations. 11. Discuss how wing planform characteristics (i.e. wing area, wing span, mean aerodynamic chord, taper ratio, aspect ratio) affect lift, drag and aircraft performance. 12. Determine maximum range, endurance speeds and rate of climb airspeeds from plots of power, thrust and drag versus airspeed and understand wind and fuel flow effects. 13. Describe the cause and effects of compressibility and the aerodynamic design features for high-speed transonic and supersonic flight. 14. Describe aircraft stability and control, including the aircraft features that improve or degrade stability and control and the flight conditions where stability and control are critical. 15. Determine the origins and effects of parasite drag and methods utilized to reduce it. 16. The student will demonstrate appropriate selection and application of a research method and statistical analysis (where required), specific to the course subject matter. Required Course Materials: Dole, C. E., & Lewis, J. E. (2000). Flight theory and aerodynamics (2nd ed.). New York, NY: John Wiley & Sons. ISBN: 978-0471370061 AND 2

, H. H. (1965). Aerodynamics for naval aviators (revised ed.) (NAVWEPS 00-80T-80). Los Angeles, CA: University of Southern California. ISBN: 978-1560271406 Suggested / Optional Supplemental Materials: Scientific calculator Anderson, J. D., Jr. (2011). Introduction to flight (7th ed.). New York, NY: McGraw-Hill. ISBN: 978-0073380247 Grading: Midterm Examination 25% Final Examination 30% Exercises/Participation 45% Total 100% UNDERGRADUATE Grade Grade 90-100 A (Superior) 80-89 B (Above Average) 70-79 C (Average) 60-69 D (Below Average) Below 60 F (Failure) Library: The Jack R. Hunt Library, located on the Daytona Beach Campus, is the primary library for all Worldwide Campus students. Web: http://library.erau.edu Phone: (800) 678-9428 (ext. 6947) or (386) 226-7656 (Voicemail is available after hours) Hours: Monday - Friday, 8:00 a.m. - 5:00 p.m. EST Email: http://library@erau.edu 3

Assignments, Discussion Board Participation (If required for Blended Delivery), and/or special administrative: All assignments will be completed in a professional manner and on time, unless prior arrangements have been made with the professor. Blackboard assignments (if required) are graded with class participation. This course includes weekly activities, each of which may have grade points associated with them. Unless prior arrangements have been made with the instructor, students are expected to participate each week, according to the course schedule. This is especially important with regards to discussion activities. Weekly discussions typically include both an initial posting and one or more substantive replies. Note: Proper etiquette has to do with keeping it simple by using proper English and proper spelling spell check works well in Blackboard. Course Policies: Embry-Riddle is committed to maintaining and upholding intellectual integrity. All students, faculty, and staff have obligations to prevent violations of academic integrity and take corrective action when they occur. The adjudication process will include the sanction imposed on students who commit the following academic violations, which may include a failing grade on the assignment, a failing grade for the course, suspension, or dismissal from the University: 1. Plagiarism: Presenting as one s own the ideas, words, or products of another. Plagiarism includes use of any source to complete academic assignments without proper acknowledgement of the source. All papers submitted for grading in this course will be submitted to safeassign.com - http://www.safeassign.com/ where the text of the paper is compared against information contained in the safeassign.com database. Papers submitted will be included in the safeassign.com database and become source documents for the purpose of detecting plagiarism. 2. Cheating: A broad term that includes the following: a. Giving or receiving help from unauthorized persons or materials during examinations. b. The unauthorized communication of examination questions prior to, during, or following administration of the examination. c. Collaboration on examinations or assignments expected to be individual work. d. Fraud and deceit, that include knowingly furnishing false or misleading information or failing to furnish appropriate information when requested, such as when applying for admission to the University. 3. APA 6 th edition format is the ERAU Worldwide standard for all research projects. Disability and Special Needs: ERAU is committed to the success of all students. It is a University policy to provide reasonable accommodations to students with disabilities who qualify for services. If you would like to request accommodations due to a physical, mental, or learning disability, please contact the Worldwide Campus Disability Support Service Office at (888) 292-5727 or via email wwdss@erau.edu or worldwide.disability.support.services@erau.edu. 4

Course Schedule: Week Topics L/O Activities 1 24 30 Mar Class Introductions and course familiarization Introduction and Physical Laws Meeting 28 30 Mar 1-3 module 1: Activity 1.1 - Discussion: Class Introductions Activity 1.2 - Tutorial: Aerodynamic Terms Activity 1.3 - Reading: Doyle & Lewis Activity 1.4 - Lecture: Physics Laws & Measurement Activity 1.5 - Practice: Chapter 1 Activity 1.6 - Discussion: Physical Laws Activity 1.7 - Assignment 1: Rectilinear Motion Exercise 2 31 Mar 6 Apr 3 07 13 Apr Atmospheric Properties and Airspeed Measurement Airfoils, Aerodynamic Forces, Lift and Boundary Layer Theory 1, 2 module 2: Activity 2.1 - Readings: Doyle & Lewis; Activity 2.2 - Lectures: Altitude, Density Altitude, Airspeed Activity 2.3 - Practice: Chapter 2 Activity 2.4 - Exploration: Aerodynamics Tools Activity 2.5 - Discussion: Atmospheric Conditions and Airspeed Activity 2.6 - Assignment 2: Standard Atmosphere-Airspeed Exercise 3, 4 module 3: Activity 3.1 - Readings: Doyle & Lewis; Activity 3.2 - Lecture: Airfoils and Aerodynamics Activity 3.3 - Practice: Chapters 3 and 4 Activity 3.4 - Exploration: Aerodynamics Tools Activity 3.5 - Discussion: Airfoils, Aerodynamic Forces, Lift and 5

4 14 20 Apr 5 21 27 Apr 6 28 Apr 04 7 05-11 Drag 5, 6, 11-12 Aerodynamic Laws, Conditions, Forces Aircraft Performance Meeting 2 4 6, 7, 9, 12, 14, 15 7, 9, 12, 14, 15 Stability and Control 7, 9, 12, 14, 15 Boundary-Layer Theory Activity 3.6 - Assignment 3: Lift and Airfoils FoilSim Exercise module 4: Activity 4.1 - Readings: Doyle & Lewis; Activity 4.2 - Lecture: Drag Activity 4.3 - Practice: Chapter 5 Activity 4.4 - Discussion: Drag Activity 4.5 - Assignment 4: Drag Exercise module 5: Activity 5.1 - Discussion: Aerodynamic Laws, Conditions, Forces Activity 5.2 - Assessment: Midterm Examination module 6: Activity 6.2.1 - Readings: Doyle & Lewis; Activity 6.2.2 - Lecture: Propeller Aircraft Performance; Spirit of St. Louis Activity 6.2.3 - Practice: Chapters 8 and 9 Activity 6.2.4 - Discussion: Propeller Aircraft Performance module 7: Activity 7.1 - Reading: Doyle & Lewis; Activity 7.2 - Lectures: Longitudinal and Lateral Stability Activity 7.3 - Practice: Chapters 15 and 16 Activity 7.4 - Videos: Longitudinal Stability, Pitch, Oscillation Activity 7.5 - Discussion: Stability and Control Activity 7.6 - Assignment 6: UA 232 Sioux City cf. DHL A-300 Baghdad 6

8 12 18 9 19 25 Maneuvering Performance, High Speed Flight and Compressibility Effects Aircraft Performance, Stability/Control, Compressibility 8, 10, 13 module 8: Activity 8.1 - Learning Unit 1: Slow Flight Characteristics and Maneuvering Performance Activity 8.2 - Learning Unit 2: High- Speed Flight and Compressibility Effects Activity 8.3 - Assignment 7: Flight Performance and Compressibility Effects Exercise Activity 8.4 - Review: Final Examination Activity 8.5 - Survey: End-of-Course Evaluation 9, 14 module 9: Activity 9.1 - Discussion: Aircraft Performance Activity 9.2 - Assessment: Final Examination Submitted by: Dr. Herb Hoffmann Approved by: O Godsey 7