Teaching
AE 105: Mathematical Methods for Aerospace Engineers
Fundamentals of modern mathematics with applications in aerospace engineering, covering differential equations and applied linear algebra. Develops analytical and computational methods for solving aerospace physical systems. Course Details
AE 164: Aerothermodynamics
Analysis of shock and expansion waves in supersonic flows, nozzle flow, and aerodynamic heating. Covers thermodynamic laws and heat transfer mechanisms with applications to aerospace systems. Course Details
AE 167: Aerospace Propulsion
Analysis of propulsion system performance for turbojets, turbofans, ramjets, and rockets. Covers one-dimensional flows, isentropic processes, and design considerations for aerospace propulsion components. Course Details
AE 200: Engineering Analysis of Aerospace Systems
Advanced engineering mathematics including linear algebra, ODEs, PDEs, Fourier analysis, and numerical methods with applications to aerospace engineering problems. Course Details
AE 266: Hypersonics
Fundamental principles of hypersonic aerodynamics, including theory and techniques for analyzing high-speed flows and their physical aspects in aerospace applications. Course Details
AE 295A/B: Aerospace Engineering Masters Project
Two-semester sequence where students perform original graduate-level research, design, or development involving aerospace systems under faculty supervision. Course Details