Aerodynamics Course Overview and Schedule

This content provides a detailed overview of an Aerodynamics course, including information about the instructor, textbooks, lecture schedule, assessment breakdown, and weekly topics. It covers aspects such as office hours, teaching assistant details, lecture expectations, midterm exams, course projects, and weekly lesson topics from syllabus discussions to compressible flow analysis. The content also includes a listing of textbooks and emphasizes the importance of attendance and punctuality during lectures.

• Aerodynamics
• Course Schedule
• Instructor Details
• Textbooks
• Assessment

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2. Instructor: Office: Tel: Email: Dr. Masoud Mirzaei Room 219 73094219 Mirzaei@kntu.ac.ir Saturdays 13:30-14:45 Tuesdays 10:30-11-45 by appointment Lecture Hours: Office Hours: Teaching Assistant: Mr. Saber Khoei ???? 2

3. 1. John Anderson, Fundamentals of Aerodynamics 4th Edition, McGraw-Hill, 2005. 2. John Bertin, Aerodynamics for Engineers , 4th Edition, Prentice Hall. 3. John, J. E., Gas Dynamics Prentice Hall,2006 4. E. L. Houghton, P. W. Carpenter Aerodynamics for engineering students 5th edition, McGraw-Hill, 2003. 5. A. M. Kuethe, C. Y. Chow, Foundations of aerodynamics , John Wiley, 5th edition, 1998 3

4. Lecture 1. 2. Attendance is not mandatory but is recommended. On-time arrival is expected. Late arrival and leaving the class before ending the lecture will be punished . Sending and receiving SMS or any item that can disturb the lecture is prohibited . 3. Complementary Problems 10 sets of problems from the texts and other sources will be emailed and will be discussed in the teaching assistant classes. 4

5. oMidterm-I: 15% oMidterm-II: 15% o Midterm-III: 15% oTA class: 5% o Final Exam: 50%-10% (Course Project) Extra Marks project: 10%+10% (For manufacturing projects) Couse Note prepration: up to 5% Homework +++++ 5

6. Weeks Date Items 92/11/12 Syllabus, policies and introductions 1 92/11/15 Elements of compressible flows and a review of thermodynamics 92/11/19 Governing equations of inviscid, compressible flows 2 92/11/22 92/11/26 Governing equations (cont.) 3 92/11/29 Normal shock waves and related topics 92/12/03 Normal shock waves (cont.) 4 92/12/06 Normal shock waves (cont.) 92/12/10 Oblique shock waves 5 92/12/13 Oblique shock waves 6

7. Weeks Date Items 92/12/17 Oblique shock waves (cont.) 6 92/12/20 Shock interactions and reflections /Midterm1 93/12/24 Prandtl-Meyer expansion waves 7 93/12/27 Prandtl-Meyer expansion waves-(cont.) 93/01/16 Supersonic airfoils 8 93/01/19 Supersonic airfoils (cont.) 93/01/23 Compressible flow through converging-diverging ducts 9 93/01/26 Compressible flow through converging-diverging ducts (cont.) 93/01/30 Compressible flow through converging-diverging ducts (cont.) 10 93/02/02 Supersonic Wind tunnel 7

8. Weeks Date Items 93/02/06 Compressible flow in pipes with friction 11 93/02/09 Compressible flow in pipes with friction (cont.) 92/02/13 Compressible flow in pipes with heat transfer 12 93/02/16 Compressible flow in pipes with heat transfer (cont.) 91/02/20 Full potential equation 13 91/02/23 Linear theory in compressible subsonic 92/02/27 Linear theory in compressible supersonic flows 14 92/02/30 Introduction to hypersonic flows 92/03/03 Introduction to hypersonic flows (cont.) 15 92/03/07 Midterm3 8