Course Description

This course delves into the advanced principles and methodologies of engineering design with a specific focus on rocket science and its cutting-edge applications. Participants will gain an in-depth understanding of the design, development, and testing processes of modern rocket systems. The course emphasizes the integration of advanced technologies such as computational simulations, material science innovations, and AI-driven optimization in engineering.

Key topics include:

1. Rocket Design Fundamentals
   • Aerodynamics and propulsion system basics.
   • Structural design principles for high-speed flight.
2. Advanced Materials for Rocketry
   • Exploration of lightweight, high-strength materials.
   • Thermal protection systems and their applications.
3. Simulation and Modeling Techniques
   • Using CFD (Computational Fluid Dynamics) for aerodynamic analysis.
   • FEA (Finite Element Analysis) for structural and thermal evaluations.
4. Integration of AI in Rocket Design
   • AI-driven design optimization techniques.
   • Predictive analytics for performance enhancement.
5. Rocket Payload and Mission Design
   • Designing payload compartments for diverse mission requirements.
   • Balancing cost, weight, and efficiency in satellite launch systems.
6. Sustainable Rocket Technologies
   • Reusable rocket design principles.
   • Exploring eco-friendly propellants and their applications.
7. Hands-on Projects and Case Studies
   • Real-world applications in aerospace engineering.
   • Reverse engineering of historical and modern rocket designs.

Learning Outcomes

By the end of this course, participants will:

• Master the core and advanced principles of rocket design.
• Develop skills to utilize AI and modern tools for designing and testing.
• Understand the lifecycle of rocket systems from design to deployment.
• Explore innovative techniques for sustainability in aerospace engineering.