UB - University at Buffalo, The State University of New York UB Mechanical and Aerospace Engineering

M.S. Aerospace Engineering Program Courses

  • MAE 519 Turbulent Flow
  • MAE 525 Spacecraft Dynamics & Control
  • MAE 529 Finite Element Structural Analysis
  • MAE 534 Combustion
  • MAE 542 Engineering Applications of Computational Fluid Dynamics
  • MAE 582 Intro to Composite Materials
  • MAE 672 Optimal Control Systems
  • MAE 674 Optimal Estimation Methods

The above list of courses was last reviewed in August 2005. In addition to the requirement that Aerospace Engineering Masters students select at least three courses from this list, basic courses have been recommended in the Masters Degree Programs section in accordance with the chosen area of concentration.

  • UB MAE Research

    Research Spotlight

    MAE researchers have developed advanced computational techniques for Fire Simulation and multi-phase reacting turbulent flows.

  • MAE

    Research Spotlight

    UB MAE researchers in computational mechanics have developed a high fidelity volcanic landslide simulator to aid geologists in mapping the hazard areas at locations such as the island of Montserrat.

  • UB MAE Research

    Research Spotlight

    A Level Set Embedded Interface Method has been developed at Compuational Fluid Dynamics Laboratory to simulate Conjugate heat transfer for irregular geometries

  • UB MAE Research

    Research Spotlight

    MAE's Laser Flow Diagnostic Laboratory is a leader holographic particle image velocimetry, a three-dimensional, next generation flow diagnostics tool.

  • UB MAE Research

    Research Spotlight

    MAE's Automation, Robotics, and Mechatronics Laboratory is conducting research both on the theoretical formulation and experimental validation of such novel mechatronic systems as multi-robot collaboration.

  • UB MAE Research

    Research Spotlight

    The nonlinear estimation group is developing techniques for propagating uncertainties through nonlinear dynamical systems for better forecasting and output uncertainty characterization.

  • UB MAE Research

    Research Spotlight

    Study of Non-premixed flame-wall interaction using vortex ring configuration is done for the first time at the Computational Fluid Dynamics Laboratory.

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