This course covers the intricate mathematical relationships in aerodynamics, focusing on circulation, velocity, and the concept of non-dimensional variables. The course also delves into dynamic aero elasticity, particularly the flutter problem in elastic bodies in a flow, such as wings and control surfaces. Learners will explore the concept of aerodynamic damping and methods to solve the flutter problem. The course further introduces finite state models in aerodynamics, demonstrating how to obtain a time domain model for any arbitrary motion of the airfoil. Lastly, the course explains the flutter analysis of a wing with a large aspect ratio, discussing the importance of natural frequencies and mode shapes, and the use of Rayleigh Ritz principles to obtain natural mode shapes.
This course has been developed by Prof. C. Venkatesan from IIT Kanpur for NPTEL. It is now accessible through Ansys Innovation Space courtesy of the partnership between Ansys and NPTEL, under the CC BY-SA license. For more details, visit https://nptel.ac.in/courses/101104005.
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Cost: FREE
- Course Duration: 4-6 HOURS
- Skill Level: Intermediate
- Skills Gained: aerodynamics, Rayleigh Ritz principles, circulation
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