Grad Courses

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Our graduate programs are highly multidisciplinary. Students enjoy a lot of flexibility and self-direction in choosing their courses, and are welcome to take classes outside of the Dept. of Aerospace Engineering. For example, many aerospace engineering graduate students pursue courses in Robotics, NERS and EECS. We have put together suggested lists of curricula that might be helpful to students as they plan their own course schedules, based on each research area.

See information about the courses, including prerequisites, course topics, objectives and outcomes. This information can be used to compare courses between institutions, identifying appropriate matches for study abroad semesters or transfer credit.

Aerospace Engineering Courses Bulletin

Courses by research area

Aerodynamics and Propulsion

Fundamental courses

AEROSP 520. Compressible Flow I
AEROSP 522. Viscous Flow
AEROSP 523 (MECHENG 523). Computational Fluid Dynamics I
AEROSP 525. Introduction to Turbulent Flows
AEROSP 532. Molecular Gas Dynamics
AEROSP 533 (ENSCEN 533). Combustion Processes
AEROSP 544. Aeroelasticity
AEROSP 729. Statistical Approaches for Aerospace Engineering
AEROSP 729. Data-driven Analysis and Modeling

Elective courses

AEROSP 521. Experimental Methods in Fluid Mechanics
AEROSP 524. Aerodynamics II
AEROSP 526. Hypersonic Aerothermodynamics
AEROSP 527. Unsteady Aerodynamics and Aeroacoustics
AEROSP 530. Gas-Turbine Propulsion
AEROSP 535. Rocket Propulsion
AEROSP 536. Electric Propulsion
AEROSP 623. Computational Fluid Dynamics II
AEROSP 625. Advanced Topics in Turbulent Flow
AEROSP 627. Advanced Gas Dynamics
AEROSP 633. Advanced Combustion

Autonomous Systems and Control

Fundamental courses

AEROSP 540 (MECHENG 540). Intermediate Dynamics
AEROSP 548. Astrodynamics
AEROSP 550 (CEE 571) (EECS 560) (MECHENG 564). Linear Systems Theory
AEROSP 551 (EECS 562). Nonlinear Systems and Control
AEROSP 552. Aerospace Information Systems
AEROSP 567. Statistical Inference, Estimation, and Learning
AEROSP 573. Dynamics and Control of Spacecraft
AEROSP 575. Flight and Trajectory Optimization
AEROSP 580. Linear Feedback Control Systems / EECS 565. Linear Feedback Control Systems
AEROSP 584. Avionics, Navigation and Guidance of Aerospace Vehicles

Elective courses

AEROSP 450. Flight Software Systems
AEROSP 566. Data Analysis and System Identification
AEROSP 579. Control of Structures and Fluids
AEROSP 581 (SPACE 581). Space System Management
AEROSP 582 (SPACE 582). Spacecraft Technology
AEROSP 583. Management of Space Systems Design

Computation

Fundamental courses

AEROSP 552. Aerospace Information Systems
AEROSP 567. Statistical Inference, Estimation, and Learning
EECS 592. Foundations of Artificial Intelligence
AERSP 740. Complex Systems Design and Integration

Elective courses

AEROSP 729. Data-driven Analysis and Modeling
AEROSP 588. Multidisciplinary Design and Optimization
EECS 563. Hybrid Systems
EECS 587. Parallel Computing
EECS 590. Advanced Programming Languages

Space Systems

Fundamental courses

AEROSP 548. Astrodynamics
AEROSP 552. Aerospace Information Systems
AEROSP 573. Dynamics and Control of Spacecraft
AEROSP 574. (SPACE 574) Space Physics
AEROSP 575. Flight and Trajectory Optimization

Elective courses

AEROSP 450. Flight Software Systems
AEROSP 535. Rocket Propulsion
AEROSP 536. Electric Propulsion
AEROSP 581 (SPACE 581). Space System Management
AEROSP 582 (SPACE 582). Spacecraft Technology
AEROSP 583. Management of Space Systems Design
AEROSP 597 (SPACE 597). Fundamentals of Space Plasma Physics

Structures and Materials

Fundamental courses

AEROSP 510. Finite Elements in Mechanical and Structural Analysis I
AEROSP 513. Foundations of Solid and Structural Mechanics I
AEROSP 514. Foundations of Solid and Structural Mechanics II
AEROSP 516. Mechanics of Fibrous Composites
AEROSP 518. Theory of Elastic Stability I
AEROSP 540 (MECHENG 540). Intermediate Dynamics
AEROSP 543. Structural Dynamics
AEROSP 544. Aeroelasticity
AEROSP 545. Aeromechanics of Rotary Wing Vehicles
AEROSP 588. Multidisciplinary Design Optimization

Elective courses

AEROSP 416 (NAVARCH 416). Theory of Plates and Shells
AEROSP 495. Advanced Flight Structures
AEROSP 511. Finite Elements in Mechanical and Structural Analysis II
AEROSP 545. Aeromechanics of Rotary Wing Vehicles
AEROSP 618. Theory of Elastic Stability II
MECHENG 505. Finite Element Methods in Mechanical Engineering
MECHENG 512 (CEE 509). Theory of Elasticity
MECHENG 516. (MATSCIE 516) Mechanics of Thin Films and Layered Materials
MECHENG 517. (MACROMOL 517) Mechanics of Polymers I
MECHENG 519. Theory of Plasticity I
MECHENG 605. Advanced Finite Element Methods in Mechanics

Core doctoral courses

Category 1 Doctoral Courses

AEROSP 513. Foundations of Solid and Structural Mechanics I
AEROSP 518. Theory of Elastic Stability I
AEROSP 520. Compressible Flow I
AEROSP 523 (MECHENG 523). Computational Fluid Dynamics I
AEROSP 532. Molecular Gas Dynamics
AEROSP 540 (MECHENG 540). Intermediate Dynamics
AEROSP 543. Structural Dynamics
AEROSP 550 (CEE 571) (EECS 560) (MECHENG 564). Linear Systems Theory
AEROSP 552. Aerospace Information Systems
AEROSP 567. Statistical Inference, Estimation, and Learning
AEROSP 584. Avionics, Navigation and Guidance of Aerospace Vehicles
EECS 592. Foundations of Artificial Intelligence

Category 2 Doctoral Courses

AEROSP 510. Finite Elements in Mechanical and Structural Analysis I
AEROSP 514. Foundations of Solid and Structural Mechanics II
AEROSP 516. Mechanics of Fibrous Composites
AEROSP 522. Viscous Flow*
AEROSP 525. Introduction to Turbulent Flows
AEROSP 526 Hypersonic Aerothermodynamics
AEROSP 533 (ENSCEN 533). Combustion Processes
AEROSP 535 Rocket Propulsion
AEROSP 536 Electric Propulsion
AEROSP 544. Aeroelasticity
AEROSP 545. Aeromechanics of Rotary Wing Vehicles
AEROSP 548. Astrodynamics
AEROSP 551 (EECS 562). Nonlinear Systems and Control
AEROSP 573. Dynamics and Control of Spacecraft
AEROSP 575. Flight and Trajectory Optimization
AEROSP 580. Linear Feedback Control Systems / EECS 565. Linear Feedback Control Systems
AEROSP 588. Multidisciplinary Design Optimization
AEROSP 729. Data-driven Analysis and Modeling
AEROSP 729. Statistical Approaches for Aerospace Engineering
EECS 563 Hybrid Systems, Analysis, and Control
EECS 587. Parallel Computing
EECS 590. Advanced Programming Languages
NERS 571 Intermediate Plasma Physics I

Mathematics requirement courses

AEROSP 423. Computational Methods for Aerospace Engineering
AEROSP 523. (MECHENG 523) Computational Fluid Dynamics I
AEROSP 550 (CEE 571) (EECS 560) (MECHENG 564). Linear Systems Theory
AEROSP 551 (EECS 562). Nonlinear Systems and Control
AEROSP 567. Statistical Inference, Estimation, and Learning
AEROSP 588. Multidisciplinary Design Optimization
AEROSP 623. Computational Fluid Dynamics II
EECS 501. Probability and Random Processes
EECS 502. Stochastic Processes
EECS 505. Computational Data Science and Machine Learning
Math 419. Linear Spaces and Matrix Theory
Math 450. Advanced Mathematics for Engineers I
Math 451. Advanced Calculus I
Math 452. Advanced Calculus II
Math 454. Boundary Value Problems for Partial Differential Equations
Math 471. Introduction to Numerical Methods
Math 525 (STAT 525). Probability Theory
Math 547 (BIOINF 547) (STATS 547). Mathematics of Data
Math 555. Introduction to Functions of a Complex Variable with Applications
Math 556. Applied Functional Analysis
Math 557. Applied Asymptotic Analysis
Math 561. (IOE 510) Linear Programming I
Math 562. (IOE 511) Continuous Optimization Methods
Math 571. Numerical Linear Algebra
Math 572. Numerical Methods for Differential Equations
Math 602. Real Analysis II
Math 651. Modeling and Mechanics
Math 654. Intro Fluid Dynamics
MECHENG 501. Mathematical Methods in Mechanical Engineering
MECHENG 502. Methods of Differential Equations in Mechanics
NERS 571. Intermediate Plasma Physics I
Physics 452: Methods of Theoretical Physics II
ROB 501. Mathematics for Robotics

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