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File: Flight Dynamics Pdf 158304 | Enae 403 Abet Syllabus
aerospace engineering enae 403 abet course syllabus enae 403 aircraft flight dynamics credits contact hours 3 credits 3 hours of lecture course status required schedule offered every fall semester course ...

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                     Aerospace Engineering                                                                                               ENAE 403 
                                                                      ABET Course Syllabus 
                                                        ENAE 403 Aircraft Flight Dynamics 
                                                                                       
                     Credits & Contact Hours:                3 credits (3 hours of lecture) 
                      
                     Course Status:                          Required 
                      
                     Schedule:                               Offered every Fall semester 
                      
                     Course Description:                     Study of motion of aircraft, equations of motion, aerodynamic force 
                                                             representation, longitudinal and lateral motions, response to controls and 
                                                             to atmospheric disturbances, handling qualities criteria and other figures 
                                                             of merit. 
                      
                     Pre-Requisites:                         ENAE 432 and ENAE 414 
                      
                     Co-Requisites:                          None 
                      
                     Textbooks:                              (1) R. Nelson. Flight Stability and Automatic Control. McGraw Hill, 
                                                             second edition, 1998 (recommended). 
                                                             (2) T. Yechout. Introduction to Aircraft Flight Mechanics. AIAA 
                                                             Education Series, 2003 (recommended). 
                                                             (3) B. Pamadi. Performance, Stability, Dynamics, and Control of 
                                                             Airplanes. AIAA Education Series, second edition, 2004 
                                                             (recommended). 
                                                             (4) B. Stevens and F. Lewis. Aircraft Control and Simulation. John 
                                                             Wiley and Sons, second edition, 2003. 
                      
                     Other Required Material:                Course lecture notes and handouts 
                      
                     Course Oversight:                        Dynamics and Control Committee 
                                                              
                     Syllabus Prepared By/Date:              Dr. Sean Humbert, June 13, 2011 
                      
                     Course Objectives/Student Learning Outcomes: 
                          1.  Analyze a given aircraft configuration to determine its stability and control characteristics based 
                               on standard formulations of the six degree of freedom linearized equations of motion.  
                          2.  Formulate the nonlinear 6 DOF kinematics and dynamics equations for fixed wing aircraft.  
                          3.  Use perturbation methods to reduce nonlinear aircraft dynamics to linearized equations of motion.  
                          4.  Determine aircraft response to initial conditions and control inputs; analyze the dependence of the 
                               dynamic response on reference altitude and airspeed.  
                          5.  Understand the role of flight mechanics in the design cycle of flight vehicles 
                                
                     Topics Covered: 
                          1.  Introduction: Review of vector/matrix analysis 
                          2.  Kinematics 
                                    a.   Coordinate systems 
                                    b.  Rotation matrices 
                                    c.   General 3-D motion with rotating reference frames 
                                    d.  Euler angles 
                                    e.   Quaternions 
                     Aerospace Engineering                                                                                               ENAE 403 
                                                                      ABET Course Syllabus 
                          3.  Dynamics 
                                    a.   Linear and angular momentum 
                                    b.  Transport theorem 
                                    c.   6-DOF translational and rotational equations of motion 
                                    d.  Aircraft geometry and inertia 
                                    e.   Aerodynamic force representation 
                          4.  Linear analysis 
                                    a.   Equilibrium solutions and trim conditions 
                                    b.  Small perturbation analysis and linear model derivation 
                                    c.   Stability derivatives 
                          5.  State space 
                                    a.   State & observation equations 
                                    b.  Dyadic expansions 
                                    c.   Modal participation factors 
                                    d.  Natural and forced response 
                                    e.   Controllability 
                                    f.   Observability 
                                    g.  Pole Placement 
                          6.  Aircraft Response 
                                    a.   Longitudinal and lateral dynamics and modes 
                                    b.  Stick-fixed and input response 
                                    c.   Handling qualities 
                                    d.  Stability augmentation systems (SAS) 
                      
                     Relationship of Course Objectives to Program Outcomes 
                     This course addresses program outcomes: 1, 2, 3, 5, 9 
                      
                      
                      
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...Aerospace engineering enae abet course syllabus aircraft flight dynamics credits contact hours of lecture status required schedule offered every fall semester description study motion equations aerodynamic force representation longitudinal and lateral motions response to controls atmospheric disturbances handling qualities criteria other figures merit pre requisites co none textbooks r nelson stability automatic control mcgraw hill second edition recommended t yechout introduction mechanics aiaa education series b pamadi performance airplanes stevens f lewis simulation john wiley sons material notes handouts oversight committee prepared by date dr sean humbert june objectives student learning outcomes analyze a given configuration determine its characteristics based on standard formulations the six degree freedom linearized formulate nonlinear dof kinematics for fixed wing use perturbation methods reduce initial conditions inputs dependence dynamic reference altitude airspeed understan...

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