Module #1 Introduction to Aerospace Engineering Overview of the field, history, and applications of aerospace engineering
Module #2 Aerospace Engineering Fundamentals Foundational concepts in math and science, including calculus, linear algebra, and physics
Module #3 Aerodynamics and Aerothermodynamics Principles of aerodynamics, aerothermodynamics, and aerospace vehicle performance
Module #4 Aerospace Materials and Structures Properties and applications of materials used in aerospace engineering, including metals, composites, and ceramics
Module #5 Flight Dynamics and Control Principles of flight dynamics, stability, and control systems for aircraft and spacecraft
Module #6 Astronomy and Orbital Mechanics Introduction to astronomy, orbital mechanics, and space mission design
Module #7 Rocket Propulsion Systems Fundamentals of rocket propulsion, including solid, liquid, and hybrid rocket systems
Module #8 Aerospace Electrical and Electronics Systems Electrical and electronics systems in aerospace engineering, including power systems and avionics
Module #9 Computer-Aided Design (CAD) and Modeling Introduction to CAD software and modeling techniques for aerospace engineering applications
Module #10 Aerospace Engineering Design and Optimization Design principles and optimization techniques for aerospace engineering systems
Module #11 Aerospace System Safety and Reliability Safety and reliability principles and practices in aerospace engineering
Module #12 Propulsion Systems for Spacecraft Specialized propulsion systems for spacecraft, including ion engines and solar sails
Module #13 Spacecraft Design and Operations Design principles and operational considerations for spacecraft, including payload and communication systems
Module #14 Aerospace Engineering Laboratory Hands-on laboratory experience with aerospace engineering experiments and projects
Module #15 Unmanned Aerial Vehicles (UAVs) and Drones Design, development, and operation of UAVs and drones for various applications
Module #16 Hypersonic Flight and Aerodynamics Principles of hypersonic flight and aerodynamics, including scramjets and reentry vehicles
Module #17 Space Mission Analysis and Design Introduction to space mission analysis and design, including launch and trajectory planning
Module #18 Aerospace Engineering Ethics and Professionalism Ethical considerations and professional practices in aerospace engineering
Module #19 Aerospace Engineering Economics and Management Economic and management principles for aerospace engineering projects and programs
Module #20 Advanced Materials and Manufacturing Advanced materials and manufacturing techniques for aerospace engineering applications
Module #21 Artificial Intelligence and Machine Learning in Aerospace Applications of AI and ML in aerospace engineering, including autonomous systems and data analysis
Module #22 Advanced Propulsion Systems Research and development of advanced propulsion systems, including nuclear and advanced ion engines
Module #23 Space Exploration and Settlement Concepts and challenges of space exploration and settlement, including habitat design and life support systems
Module #24 Aerospace Engineering Research and Development Research and development methods and practices in aerospace engineering
Module #25 Course Wrap-Up & Conclusion Planning next steps in Aerospace Engineering career