Introduction to Aerodynamics (Dr. K.P. Sinhamahapatra, IIT Kharagpur) | Aeronautics and Astronautics

Introduction to Aerodynamics

Introduction to Aerodynamics. Instructor: Dr. K.P. Sinhamahapatra, Department of Aerospace Engineering, IIT Kharagpur. This course provides an introduction to aerodynamics, covering topics: aircraft and aerodynamic forces and moments, fluids and forces in fluids, kinematics of fluid motion, conservation of energy, equations of motion, potential flow, conformal transformation, Zhukovsky transformation, and boundary-layer theory. (from nptel.ac.in)

Aircraft and Aerodynamic Forces and Moments

Lecture 01 - Aircraft and Aerodynamic Forces and Moments

Lecture 02 - Aircraft and Aerodynamic Forces and Moments (cont.)

Lecture 03 - Fluids and Forces in Fluids

Lecture 04 - Fluids and Forces in Fluids (cont.)

Lecture 05 - Forces in Fluids

Lecture 06 - Forces in Fluids (cont.)

Lecture 07 - Kinematics of Fluid Motion

Lecture 08 - Kinematics of Fluid Motion (cont.)

Lecture 09 - Kinematics of Fluid Motion (cont.)

Lecture 10 - Kinematics of Fluid Motion (cont.)

Lecture 11 - Kinematics of Fluid Motion - Velocity with Specified Extension and Vorticity

Lecture 12 - Kinematics of Fluid Motion - Velocity with Specified Extension and Vorticity (cont.)

Lecture 13 - Kinematics of Fluid Motion - Vorticity Distribution

Lecture 14 - Kinematics of Fluid Motion - Velocity without Expansion and Vorticity

Lecture 15 - Irrotational Solenoidal Flow in Multiply Connected Region

Lecture 16 - Irrotational Solenoidal Flow in Multiply Connected Region (cont.)

Lecture 17 - Equations of Fluid Motion - Navier-Stokes Equation

Lecture 18 - Equations of Fluid Motion - Navier-Stokes Equation (cont.)

Lecture 19 - Equations of Fluid Motion - Navier-Stokes Equation (cont.)

Lecture 20 - Conservation of Energy and Energy Equation

Lecture 21 - Equations of Motion

Lecture 22 - Equations of Motion (cont.)

Lecture 23 - Exact Solution for Simple Problems

Lecture 24 - Exact Solution for Simple Problems (cont.)

Lecture 25 - Non-dimensional Form of the Equations and Possible Simplifications

Lecture 26 - High Reynolds Number Approximation

Lecture 27 - Conditions for Incompressibility

Lecture 28 - Potential Flow

Lecture 29 - Potential Flow - Combination of Basic Solutions

Lecture 30 - Potential Flow - Combination of Basic Solutions (cont.)

Lecture 31 - Potential Flow - Combination of Basic Solutions (cont.)

Lecture 32 - Potential Flow - Combination of Basic Solutions (cont.) - Lifting Cylinder

Lecture 33 - Conformal Transformation

Lecture 34 - Conformal Transformation (cont.)

Lecture 35 - Zhukovsky Transformation

Lecture 36 - Zhukovsky Transformation (cont.)

Lecture 37 - Zhukovsky Transformation - Applications

Lecture 38 - Zhukovsky Transformation - Applications (cont.)

Lecture 39 - Zhukovsky Transformation - Applications (cont.)

Lecture 40 - Transformation

Lecture 41 - Transformation (cont.)

Lecture 42 - Boundary-Layer Theory

Lecture 43 - Boundary-Layer Theory (cont.)

Lecture 44 - Boundary-Layer Theory (cont.)

Lecture 45 - Boundary-Layer Theory (cont.)

Lecture 46 - Boundary-Layer Theory (cont.)

References

Introduction to Aerodynamics
Instructor: Dr. K.P. Sinhamahapatra, Department of Aerospace Engineering, IIT Kharagpur. This course provides an introduction to aerodynamics.