
Advanced Nanotechnology in Aerospace
This advanced course delves into the cutting-edge applications of nanotechnology in aerospace engineering. It covers nano-engineered structural materials, aerodynamics, propulsion systems, nanoelectronics, and quantum nanotechnology. Students will explore the latest research, industry applications, and future trends, with a strong focus on computational modeling, experimental analysis, and real-world case studies.
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Course Duration:
24 hours
Level:
Advanced

Course Objectives
Analyse the advanced principles of nanotechnology and their aerospace applications.
Evaluate the properties, synthesis, and performance of nano-engineered structural materials.
Investigate nanoscale surface modifications for aerodynamics and drag reduction.
Assess nanotechnology-driven advancements in thermal management and extreme environment protection.
Explore nano-enhanced propulsion systems, fuel efficiency, and electric propulsion.
Examine nanoelectronics, MEMS/NEMS sensors, and their role in avionics and aerospace computing.
Study self-healing materials, radiation shielding, and nanotechnology applications for space exploration.
Understand the potential of quantum nanotechnology in future aerospace systems.
Assess ethical, environmental, and safety considerations in aerospace nanotechnology.
Apply theoretical and practical knowledge through case studies, simulations, and research projects.
Prerequisites
Strong background in materials science and aerospace engineering
Knowledge of nanotechnology fundamentals
Familiarity with computational modeling and simulation techniques (recommended)
