This learning track covers a wide range of topics in aero elasticity, structural analysis, aerodynamics, and vibrations. The first course focuses on the study of aero elasticity and structural analysis, covering fundamentals like the Wright brothers' biplane design and the concept of deformation and energy formulation in structural analysis. Concepts such as Hamilton's Principle and Lagrange's Equation are discussed in the context of aeroelastic problems. The second course emphasizes Eigen value problems in vibrations, exploring boundary conditions, admissible functions, and Eigen functions. It covers the process of obtaining solutions for vibration problems and introduces various techniques to solve aeroelastic equations. The third course dives into the impact of aero elasticity on aircraft design, from static aeroelasticity to torsional deformation in wings. It also discusses the effects of aeroelasticity on aircraft during different flight conditions and the complexities of bending and torsional deformations. The fourth course introduces dynamic aeroelasticity and aerodynamics, using a simple 2D model of a wing section. It explores the flutter problem, unsteady aerodynamics, and ends with an in-depth explanation of Small Disturbance Potential Theory. The fifth course offers an in-depth study of aerodynamics, focusing on supersonic, subsonic, and two-dimensional flows. It explores mathematical equations related to supersonic flow, the concept of aerofoil pressure, and the application of subsonic flow in aerodynamics. The final course examines the mathematical relationships in aerodynamics, the flutter problem in elastic bodies, and introduces finite state models. It concludes with the flutter analysis of a wing with a large aspect ratio.
This course covers the comprehensive study of aeroelasticity and structural analysis. It begins with the fundamentals of aeroelasticity, exploring its applications and the problems encountered in this field. For instance, the course ex...Read more
This course covers the comprehensive understanding of Eigen value problems in the context of vibrations. It starts with the exploration of boundary conditions, including geometric and natural or force boundary conditions, and their implications in ...Read more
This course covers the comprehensive understanding of aeroelasticity and its impact on aircraft design. It begins with the fundamentals of static aeroelasticity, explaining the divergence of a 2D section, the torsional spring constant of an aerofoil, and the co...Read more
This course covers the fundamental concepts of Dynamic Aeroelasticity and Aerodynamics. It starts with the explanation of static and dynamic aeroelastic problems using a simple 2D model of a wing section. The course then delves into the ap...Read more
This course covers the comprehensive study of aerodynamics, focusing on supersonic, subsonic and two dimensional flows. It begins with an exploration of steady and unsteady supersonic flow over a thin aerofoil, explaining the potential flow equation,...Read more
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 ...Read more
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