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Graduate Course Descriptions

AE 690 Professional Development for Graduate Studies
Professional development for graduate students. Presentation and discussion of graduate student research. Meets approximately monthly. Each meeting will include either a faculty-guided seminar on one of the core course topics or presentations by students on a research topic. Some class sessions will be devoted to 10-15 minute informal presentations on work in progress. Others will allow students to make informal presentations as a "dress rehearsal" for presentations to be given at a technical conference. Two semesters of enrollment required for all MS, ME PhD and DE aspirants and candidates. Graded on a satisfactory/unsatisfactory basis. LEC.

The class is not offered for the Spring 2017 semester.

AE 701 Structural Design
Design and internal construction of major structural components: wing, fuselage, empennage, landing gear, engine pylons. Layout of major structures and system interfaces, internal geometry, material alternates, manufacturing alternates and design constraints. Certification and proof of design requirements. Prerequisite: AE 421, AE 508, and AE 510. LEC.

The class is not offered for the Spring 2017 semester.

AE 704 Dynamics and Vibrations
Problems in engineering dynamics and vibrations. Topics include applications of generalized forces and coordinates, Lagrange equations, and a study of the performance of single and multiple degree of freedom in vibrational systems. (Same as CE 704.) Prerequisite: AE 508. LEC.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
LEC Li, Jian
MW 05:00-06:15 PM LEA 3154 - LAWRENCE
3 59345
AE 705 Structural Vibrations and Modal Testing
Classical theory of structural vibrations. Single and multiple degree of freedom free and forced vibration. Theory of modal summation. Measurement techniques for dynamic data. Methods of identifying modal parameters from measurement data. Numerous laboratory and computational projects. Prerequisite: AE 508. LEC.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
LEC Ewing, Mark
TR 09:30-11:20 AM LEA 2139 - LAWRENCE
4 68888
AE 707 Aerospace Structural Loads
Steady state spanwise and chordwise airloads, windshears, gusts, landing gear loads, bird strike, traumatic loads, special commercial and military load requirements. Prerequisite: AE 507 and AE 545. LEC.

The class is not offered for the Spring 2017 semester.

AE 708 Aerospace Structures III
Modern methods in aircraft structural analysis. Computer solutions of linear problems of elastic structures. Orthotropic panels, effects of buckling non-linearity, structural optimization. Prerequisite: AE 508. LEC.

The class is not offered for the Spring 2017 semester.

AE 709 Structural Composites
Fiber materials, tapes, cloths, resin systems; general aeolotropic theory, elastic constants, matrix formulation; computer analysis, strength, theory of failure; introduction to design with composites, preliminary design, optimization, processing variables, product design. Prerequisite: CHEM 184 or CHEM 150, C&PE 121, AE 508 or CE 761; and AE 510 or ME 346 or CE 710. LEC.

The class is not offered for the Spring 2017 semester.

AE 710 Advanced Structural Composites
The course objectives are to provide each student with a more in-depth understanding of and practical hands-on experiences with available fiber and matrix materials, manufacturing methods, and the mechanical behavior of composite materials and structures. Modern software tools and manufacturing methods are addressed, to include optimization techniques and design for manufacturability. Classical plate theory, bending, buckling, and vibration of anisotropic plates is addressed. Damage tolerance and repairability, as well as nondestructive evaluation techniques are also covered. Skills learned in previous composite courses will be utilized to design, analyze, and fabricate structures of current industrial relevance. Prerequisite: AE 508 or similar, AE 709 or similar, or consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 712 Techniques of Engineering Evaluation
The formulation of problems arising in aerodynamics, heat transfer, stress analysis, thermodynamics, and vibrations. The expression of these problems in a form amenable to quantitative evaluation by dimensional reasoning, analog techniques, relaxation methods, and classical analysis. LEC.

The class is not offered for the Spring 2017 semester.

AE 713 Stochastic Systems, Estimation and Identification in Aerospace Engineering
Stochastic adaptive control theory is concerned with recursive estimation of unknown parameters and control for systems with uncertainties modeled as random variables or random processes. The theory is motivated by applications in such diverse areas as aerospace guidance and control, signal processing and communications, manufacturing processes, and financial economics. Mathematical theory of stochastic adaptive control for models based on stochastic difference equations such as autoregressive processes and stochastic differential equations as Markov diffusion processes have been developed and will be presented. This course focuses on filtering and system identification theory. Prerequisite: AE 430, AE 550, AE 551, AE 750, MATH 590 and MATH 627 or equivalent. LEC.

The class is not offered for the Spring 2017 semester.

AE 721 Aircraft Design Laboratory I
The purpose of this course is to provide aerospace engineering students with an opportunity to gain more in-depth airplane design education through team design work. This team design work will involve detailed design efforts in such areas as: landing gear design, systems design, propulsion system integration, structures design, and aerodynamic design. Prerequisite: AE 507, AE 521, AE 545 , AE 551, and AE 571. AE 521 may be taken concurrently. LAB.

The class is not offered for the Spring 2017 semester.

AE 722 Aircraft Design Laboratory II
The purpose of this course is to provide aerospace engineering students with an opportunity to gain more in-depth airplane design education through team design work. This team design work will involve detailed design efforts in such areas as: landing gear design, systems design, propulsion system integration, structures design, and aerodynamic design. Prerequisite: AE 507, AE 521, AE 545 , AE 551, and AE 571. AE 521 may be taken concurrently. LAB.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
LAB Barrett, Ronald
TR 08:00-10:50 AM LEEP2 G400 - LAWRENCE
4 60720
AE 724 Propulsion System Design and Integration
Theory and design of propulsion systems for both low and high speed aircraft and their integration into the overall configuration. Internal and external design and analysis of inlets and nozzles including their effect on the external aerodynamics of the aircraft. Engine/inlet compatibility and the problems of matching both steady state and dynamic characteristics to obtain peak, stable performance. Prerequisite: AE 572. LEC.

The class is not offered for the Spring 2017 semester.

AE 725 Numerical Optimization and Structural Design
Classical theories of unconstrained and constrained optimization. Numerical techniques for unconstrained optimization, including the steepest descent, conjugate gradient and "Newton's" methods. Numerical techniques for constrained optimization, including sequential approximate problem techniques as well as the method of feasible directions. Computer aided solutions to practical design problems in aerospace engineering. Final design project. Prerequisite: MATH 220 and MATH 290 or junior status. LEC.

The class is not offered for the Spring 2017 semester.

AE 728 Wind Turbine Engineering
Course will cover the fundamentals of engineering wind-powered electric generators. Topics will include turbine configuration design, drive train engineering, composite rotor blade aerodynamic and structural design, characterizing the influence the wind conditions on the operation, loads, and performance of a wind turbine, wind turbine controls systems engineering, and power electronic conversion. Prerequisite: AE 507, AE 545, and EECS 316 and EECS 318 or consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 730 Advanced Experimental Fluid Dynamics
Theory, methods and data analysis of various modern flow measurement techniques including: hotwire cluster, laser-Doppler velocimetry, particle image velocimetry, holography, pressure detection, temperature probing, vorticity measurements, Lagrange particle tracking. Specific experimental technique covers optical measurements in turbulent flow, microfluidic experiments, and spray and multiphase flow measurement. Prerequisite: AE 430, AE 545 or consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 731 Supersonic Aerodynamics Laboratory
Supersonic wind tunnel and shock tube operations, techniques, and instrumentation. Flow study and model testing. Prerequisite: AE 545. LAB.

The class is not offered for the Spring 2017 semester.

AE 732 Introduction to Flight Test Engineering
Course presents flight test principles, instrumentation, planning, and operation of aerospace vehicle flight testing. Course is structured with lectures, laboratories, and flight experiments. Student teams plan and execute a series of flight test experiments including: familiarization with flight test measurements, static system calibration, rate-of-climb performance, and determination of vehicle flight dynamics. Prerequisite: AE 445 and AE 550 or consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 743 Compressible Aerodynamics
Compressible flow with heat and friction; shock polars, 1-D unsteady gas dynamics, shock tube, conical flows, methods of characteristics, hypersonic flow theory. Prerequisite: AE 545. LEC.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
LEC Zheng, Zhongquan
MW 01:00-02:15 PM LEEP2 G400 - LAWRENCE
3 61559
AE 744 Introduction to Turbulent Flow
Reynolds averaged equations for turbulent flow, basic energy relations and spectra in turbulent flow, analysis of turbulent boundary layer, turbulent pipe flow, turbulence models and simulation. Prerequisite: AE 545 or equivalent. LEC.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
LEC Zheng, Zhongquan
MW 10:00-11:15 AM LEEP2 2425 - LAWRENCE
3 68740
AE 745 Applied Wing and Airfoil Theory
Applications of potential flow theory to aerodynamics of airfoil sections; wings and wing-body combinations. Introduction to high angle-of-attack and transonic aerodynamics. Prerequisite: AE 545. LEC.

The class is not offered for the Spring 2017 semester.

AE 746 Computational Fluid Dynamics
Applications of numerical techniques and digital computers to solving fluid flow problems. Solutions involving incompressible and compressible flows, inviscid and viscous flows. Finite difference techniques for different types of partial differential equations governing the fluid flow. Prerequisite: AE 545. LEC.

The class is not offered for the Spring 2017 semester.

AE 747 Introduction to Transonic Aerodynamics
Review of Fundamental Equations, Transonic Similarity Laws, Shock-Expansion Theory, Method of Characteristics (MOC), Aerodynamics of Non-Lifting Bodies, Airfoil Aerodynamics and Aerodynamics of Swept Wings. Prerequisite: AE 545. LEC.

The class is not offered for the Spring 2017 semester.

AE 748 Helicopter Aerodynamics
Helicopter components and their functioning: rotor aerodynamics, performance, stability and control, aeroelastic effects and vibrations. Prerequisite: AE 551. LEC.

The class is not offered for the Spring 2017 semester.

AE 750 Applied Optimal Control
Introduction to optimal control analysis and design tools useful for the design of Multi-Input/Multi-Output controllers. Linear Quadratic Regulator problem extended by including advanced command techniques and advanced controller structures. The techniques are illustrated with aerospace applications. Prerequisite: AE 551 or ME 682 or consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 751 Advanced Airplane Dynamics
Theory of elastic airplane stability and control using quasi-steady math models. Introduction to theory of nonlinear airplane stability and response behavior. Roll and pitch coupling phenomena. Lyapunov stability and approximate inverse Laplace transform methodology. Airplane response to atmospheric turbulence using power spectral density methods. Lagrangean dynamics. Prerequisite: AE 551. LEC.

The class is not offered for the Spring 2017 semester.

AE 752 Linear Multivariable Control
An introduction to the modeling and analysis of multi-input, multi-output control systems. Topics include state space representation, solutions of linear systems, stability analysis, state feedback controller design, LQR design, LQG design, cooperative controller design, etc. The successful completion of this course will prepare students for advanced studies in controls. Prerequisite: AE 551 or equivalent, or EECS 444 or equivalent; or by consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 753 Digital Flight Controls
Introduction to the classical Z-plane analysis and design tools useful for the design of control systems containing continuous dynamics and a digital computer. Mathematical modeling of the digital computer and design of digital compensators. Aerospace applications used to demonstrate the concepts. Prerequisite: AE 551 or ME 682 or consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 754 Missile Dynamics
Design of missile configurations. General equations of motion. Aerodynamics of missiles in subsonic through hypersonic flight regimes. Theory of missile trajectory. Linear and nonlinear theories of missile flight dynamics. Introduction to guidance and control. Launching problems and free flight dispersions. Prerequisite: AE 551. LEC.

The class is not offered for the Spring 2017 semester.

AE 755 Robust and Nonlinear Control
The robustness is one of the most critical qualities of an appropriately designed feedback control system. In this course the ability of the closed-loop system to continue performing satisfactorily despite uncertainties in estimated state variables and/or large variations in the (open-loop) plant dynamics will be investigated. This course will lay down the mathematical and theoretical background needed for the analysis and design of robust feedback control systems. Modern controller design methods (e.g. H-inf control) will be used to design controller highly nonlinear and transient dynamics. Prerequisite: AE 550, AE 551, AE 750, MATH 590 or consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 756 Rule-Based Control Systems
Introduction to rule-based systems with an emphasis on a cognitive architecture. Realistic examples of using such systems will be covered in the context of unmanned aircraft control. A brief review of programming in LISP language, on which the cognitive architecture is based. Prerequisite: EECS 316 and EECS 318, AE 550, AE 551 or equivalent. LEC.

The class is not offered for the Spring 2017 semester.

AE 757 Rule-Based UAV Control Lab
A guided experience on building an unmanned aircraft system. Uses and existing radio-controlled platform, and thus does not require an expertise in fabrication. Focuses on building the communication hardware and software that enables the use of a rule-based control system on a computer to control the aircraft remotely. Prerequisite: Corequisite: AE 756. LEC.

The class is not offered for the Spring 2017 semester.

AE 758 Introduction to Robotics
An introduction to robotics covering spatial descriptions and transformations, manipulator kinematics, Jacobians, and dynamics and control of manipulators. The successful completion of this course will prepare students for advanced studies in robotics. Prerequisite: CE 301 or equivalent, AE 551 or equivalent, and MATH 290 or equivalent; or by consent of instructor. LEC.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
LEC Choi, Dongkyu
TR 01:00-02:15 PM LEA 2139 - LAWRENCE
3 61578
AE 759 Estimation and Control of Unmanned Autonomous Systems
An introduction to the modeling, estimation and control of unmanned autonomous systems. Topics include model identification, complementary filters, Kalman filters, attitude estimation, position estimation, attitude keeping controller, path planning, etc. The successful completion of this course will prepare students for advanced studies in robotics & controls. (Same as EECS 759.) Prerequisite: MATH 627 or EECS 461 or equivalent, AE 551 or EECS 444 or equivalent; or by consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 760 Spacecraft Systems
Fundamentals of spacecraft systems and subsystems. Spacecraft systems engineering, space environment; basic astrodynamics; and the following spacecraft subsystems; attitude determination and control; electrical power; thermal; propulsion; structures and mechanisms; command, telemetry, and data handling; and communications. Same as AE 560 with the addition of a research paper. Not available for students that have taken AE 560. Prerequisite: AE 507, EECS 318, MATH 124, and ME 312 or equivalents. LEC.

The class is not offered for the Spring 2017 semester.

AE 765 Orbital Mechanics
Motion of space vehicles under the influence of gravitational forces. Two body trajectories, orbit determination, orbit transfer, universal variables, mission planning using patched conics. Transfer orbits. Prerequisite: MATH 220, MATH 290, and CE 301 or equivalent. LEC.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
LEC McLaughlin, Craig
MWF 10:00-10:50 AM LEA 2115 - LAWRENCE
3 65275
AE 766 Spacecraft Attitude Dynamics and Control
Dynamics of rigid spacecraft, attitude control devices including momentum exchange, mass movement, gravity gradient and reactor rockets. Design of feedback control systems for linear and bang-bang control devices. Prerequisite: AE 551 or permission of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 767 Spacecraft Environments
Fundamentals of spacecraft environments. Description and analysis of the natural environment in which spacecraft operate post-launch. Includes optical, electromagnetic, corpuscular radiation, plasma and dust from low Earth orbit, through outer heliosphere. Prerequisite: PHSX 212 required, PHSX 313 or PHSX 351 recommended. LEC.

The class is not offered for the Spring 2017 semester.

AE 768 Orbit Determination
Develops the theory of batch and sequential (Kalman filter) estimation theory related to orbit estimation, including a review of necessary concepts of probability and statistics. Course work includes a term project that allows students to apply classroom theory to an actual satellite orbit determination problem. Prerequisite: AE 360. Corequisite: AE 560 or AE 760. LEC.

The class is not offered for the Spring 2017 semester.

AE 771 Rocket Propulsion
Basic elements of rocket propulsion: systems, propellants, and performance. Prerequisite: AE 545 or equivalent. LEC.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
LEC Taghavi, Ray
MWF 12:00-12:50 PM LEA 2133 - LAWRENCE
3 58425
AE 772 Fluid Mechanics of Turbomachinery
Fundamentals of two- and three-dimensional flows in turbomachinery. Study of secondary flows and losses. Flow instabilities in axial flow compressors (stall and surge). Aerodynamic design of a multistage axial flow compressor. Noise associated with a transonic axial flow compressor. Turbine blade cooling. Calculation of stresses and blade life estimation in axial flow turbines. Fundamentals of radial flow turbomachinery. Prerequisite: AE 572 or consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 781 Introduction to Adaptive Aerostructures
This course covers the basic material properties and modeling techniques for structures that are capable of changing some physical property in response to a command signal. The course will be useful for students from nearly every branch of engineering and includes a fabrication and testing practicum introducing basic post processing and integration techniques used with piezoelectric, shape memory alloy and magnetorheological materials. The course concludes with an overview of applications and examples of adaptive products. Prerequisite: ME 311 or equivalent. LEC.

The class is not offered for the Spring 2017 semester.

AE 790 Special Problems in Aerospace Engineering for Masters Students
Directed studies of advanced problems in aerospace engineering. Open only to graduate students with departmental approval. RSH.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
RSH Arnold, Emily
APPT- KULC APPT - LAWRENCE
1-5 65339
RSH Barrett, Ronald
APPT- KULC APPT - LAWRENCE
1-5 55934
RSH Chao, Haiyang
APPT- KULC APPT - LAWRENCE
1-5 61508
RSH Choi, Dongkyu
APPT- KULC APPT - LAWRENCE
1-5 59765
RSH Ewing, Mark
APPT- KULC APPT - LAWRENCE
1-5 50097
RSH Farokhi, Saeed
APPT- KULC APPT - LAWRENCE
1-5 50098
RSH Hale, Richard
APPT- KULC APPT - LAWRENCE
1-5 50099
RSH Keshmiri, Shawn
APPT- KULC APPT - LAWRENCE
1-5 57166
RSH McLaughlin, Craig
APPT- KULC APPT - LAWRENCE
1-5 56653
RSH Taghavi, Ray
APPT- KULC APPT - LAWRENCE
1-5 50100
RSH Wang, Zhi
APPT- KULC APPT - LAWRENCE
1-5 60243
RSH Wu, Huixuan
APPT- KULC APPT - LAWRENCE
1-5 65340
RSH Zheng, Zhongquan
APPT- KULC APPT - LAWRENCE
1-5 58930
AE 803 Aeroelasticity
Introduction to self-excited vibrations, wing flutter, panel flutter, unsteady aerodynamics, launch vehicle structural vibrations. Prerequisite: AE 508, AE 545, AE 551, and AE 704. LEC.

The class is not offered for the Spring 2017 semester.

AE 821 Advanced Aircraft Design I
Aerodynamic design optimization. Aircraft cost prediction methods: development, manufacturing, and operating. Minimization of operation costs and implications to configuration design. Design to minimize life-cycle costs. Design decision making on the basis of cost. LEC.

The class is not offered for the Spring 2017 semester.

AE 822 Advanced Aircraft Design II
Design of flight control systems, fuel systems, hydraulic systems, and electrical systems. Weapon system integration problems, design for low radar cross sections. The kinematics of landing gear retraction systems. LEC.

The class is not offered for the Spring 2017 semester.

AE 830 Aerospace Graduate Internship
One credit hour per month of approved aerospace engineering internship satisfying one of the requirements for the MS or PhD program. Graded on a satisfactory/unsatisfactory basis. INT.

The class is not offered for the Spring 2017 semester.

AE 840 Aerodynamics of Viscous Fluids
Concepts of boundary layer equations of viscous fluids. Various transformations for compressible boundary-layer equations. Approximate and exact finite-difference solutions, including effects of suction and blowing. Transitions. Concept of turbulent flow and solutions of turbulent boundary layer equations. Applications in aeronautics. Prerequisite: AE 545. LEC.

The class is not offered for the Spring 2017 semester.

AE 845 Transonic Aerodynamics
Applications of potential flow, Euler and Navier-Stokes solvers to transonic and vortex-flow aerodynamics. Concept of rotated finite difference scheme. Convergence acceleration and multigrid techniques. Methods of flux vector splitting, upwind differencing, and approximate factorization. Turbulence modeling. Prerequisite: AE 746. LEC.

The class is not offered for the Spring 2017 semester.

AE 846 Advanced Computational Fluid Dynamics and Heat Transfer
Present recent advances in computational fluid dynamics and heat transfer with a focus on numerical algorithms designed for unstructured grids, including grid generation, convergence acceleration techniques, high-order algorithms and parallel computing on CPU and GPU clusters. It is expected that the students will understand the basics of the finite volume method for unstructured grids, and be able to program a 2D Euler solver for arbitrary grids after taking this class. Prerequisite: AE 746. This class is not open to undergraduate students. LEC.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
LEC Wang, Zhi
MWF 09:00-09:50 AM LEA 2111 - LAWRENCE
3 68735
AE 850 Advanced Control Seminar
Extension of AE 750 covering digital optimal control, optimal estimation, and advanced control topics. Combination of lecture, seminar, and project format. Review of current journal articles. Development of analysis and design computer programs. Prerequisite: AE 750 and consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 890 ME Internship
One credit per month of engineering internship. Prerequisite: Admission to Master of Engineering in Aerospace Engineering program and approved internship. INT.

The class is not offered for the Spring 2017 semester.

AE 892 Special Problems in Aerospace Engineering for Doctoral Students
Directed studies of advanced problems in aerospace engineering. Open only to graduate students with consent of instructor. RSH.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
RSH Arnold, Emily
APPT- KULC APPT - LAWRENCE
1-8 65807
RSH Barrett, Ronald
APPT- KULC APPT - LAWRENCE
1-8 55935
RSH Chao, Haiyang
APPT- KULC APPT - LAWRENCE
1-8 61509
RSH Choi, Dongkyu
APPT- KULC APPT - LAWRENCE
1-8 59767
RSH Ewing, Mark
APPT- KULC APPT - LAWRENCE
1-8 50101
RSH Farokhi, Saeed
APPT- KULC APPT - LAWRENCE
1-8 50102
RSH Hale, Richard
APPT- KULC APPT - LAWRENCE
1-8 50103
RSH Keshmiri, Shawn
APPT- KULC APPT - LAWRENCE
1-8 57172
RSH McLaughlin, Craig
APPT- KULC APPT - LAWRENCE
1-8 56654
RSH Taghavi, Ray
APPT- KULC APPT - LAWRENCE
1-8 50104
RSH Wang, Zhi
APPT- KULC APPT - LAWRENCE
1-8 60244
RSH Zheng, Zhongquan
APPT- KULC APPT - LAWRENCE
1-8 59079
RSH Wu, Huixuan
APPT- KULC APPT - LAWRENCE
1-8 65808
AE 895 M.S
Original research or project which satisfies the requirements for the degree of Master of Science in Aerospace Engineering. Restricted to Aerospace MS students. THE.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
THE Arnold, Emily
APPT- KULC APPT - LAWRENCE
1-6 65341
THE Barrett, Ronald
APPT- KULC APPT - LAWRENCE
1-6 55936
THE Chao, Haiyang
APPT- KULC APPT - LAWRENCE
1-6 61510
THE Choi, Dongkyu
APPT- KULC APPT - LAWRENCE
1-6 60471
THE Ewing, Mark
APPT- KULC APPT - LAWRENCE
1-6 50105
THE Farokhi, Saeed
APPT- KULC APPT - LAWRENCE
1-6 50106
THE Hale, Richard
APPT- KULC APPT - LAWRENCE
1-6 50107
THE Keshmiri, Shawn
APPT- KULC APPT - LAWRENCE
1-6 57175
THE McLaughlin, Craig
APPT- KULC APPT - LAWRENCE
1-6 56655
THE Taghavi, Ray
APPT- KULC APPT - LAWRENCE
1-6 50108
THE Wang, Zhi
APPT- KULC APPT - LAWRENCE
1-6 60472
THE Wu, Huixuan
APPT- KULC APPT - LAWRENCE
1-6 65342
THE Zheng, Zhongquan
APPT- KULC APPT - LAWRENCE
1-6 60473
AE 896 ME Project
A design problem or system study satisfying the project requirement for the Master of Engineering degree in Aerospace Engineering. Prerequisite: Admission to Master of Engineering in Aerospace Engineering program. THE.

The class is not offered for the Spring 2017 semester.

AE 941 Hypersonic Aerodynamics I
The gasdynamics of aerospace vehicles operating in the speed range above Mach 5. Rarified and dissociated gas flows; magnetogasdynamic and heat transfer problems. Prerequisite: Consent of instructor. LEC.

The class is not offered for the Spring 2017 semester.

AE 990 DE Internship
One credit per month of engineering internship. Prerequisite: Admission to DE program and approved internship. INT.

The class is not offered for the Spring 2017 semester.

AE 996 Ph.D
Restricted to Aerospace Ph.D. candidates. Prerequisite: Successful completion of Comprehensive Oral Exam. THE.
Spring 2017
Type Time/Place and Instructor Credit Hours Class #
THE Arnold, Emily
APPT- KULC APPT - LAWRENCE
1-15 68729
THE Barrett, Ronald
APPT- KULC APPT - LAWRENCE
1-15 55937
THE Chao, Haiyang
APPT- KULC APPT - LAWRENCE
1-15 61511
THE Choi, Dongkyu
APPT- KULC APPT - LAWRENCE
1-15 59768
THE Ewing, Mark
APPT- KULC APPT - LAWRENCE
1-15 50109
THE Farokhi, Saeed
APPT- KULC APPT - LAWRENCE
1-15 50110
THE Hale, Richard
APPT- KULC APPT - LAWRENCE
1-15 50111
THE Keshmiri, Shawn
APPT- KULC APPT - LAWRENCE
1-15 57179
THE McLaughlin, Craig
APPT- KULC APPT - LAWRENCE
1-15 56657
THE Taghavi, Ray
APPT- KULC APPT - LAWRENCE
1-15 50112
THE Wang, Zhi
APPT- KULC APPT - LAWRENCE
1-15 60246
THE Wu, Huixuan
APPT- KULC APPT - LAWRENCE
1-15 68730
THE Zheng, Zhongquan
APPT- KULC APPT - LAWRENCE
1-15 59312
AE 997 DE Project
A major design problem or system study satisfying the project requirements for the Doctor of Engineering in Aerospace Engineering degree. Restricted to Aerospace DE candidates. Prerequisite: Successful completion of Comprehensive Oral Exam. THE.

The class is not offered for the Spring 2017 semester.


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