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Resources

• Modern Compressible Flow by J.D. Anderson [Book link] 

• Course Lecture Notes [Link] 

Additional resources:

• Album of Fluid Motion by Milton Van Dyke [Book link]

Course Content

Chapter 0: Fluid Mechanics Essentials

In this section, we will revisit a few essential concepts to build an intuition for fluid mechanics.

Lecture 0.1: Fluids (Slides) (Lecture)

Lecture 0.2: Describing Fluids (Slides) (Lecture)

Lecture 0.3: Kinematics of Fluid Motion (Slides) (Lecture)

Lecture 0.4: Fluid Transport (Slides) (Lecture)

Lecture 0.5: Conservation Laws (Slides) (Lecture)

Lecture 0.6: Miscellaneous definitions (Slides) (Lecture)

Lecture 0.7: Experimental Flow Visualization (Slides) (Lecture)

Lecture 0.8: Tracer-based Experimental Techniques (Slides) (Lecture)

Lecture 0.9: Density-based Experimental Techniques (Slides) (Lecture)

Chapter 1: Basics of Fluid Mechanics and Thermodynamics

The principles covered in this section are crucial to understanding compressible fluid flows.

Lecture 1.1: Introduction to the course (Slides) (Lecture)

Lecture 1.2 - Basics of FM and Thermodynamics (Lecture)

From this section onwards, refer to lecture notes and the book by JD Anderson provided in the course Resources.

Chapter 2: Compressible Flows

This section discusses compressibility effects, the role of sound, stagnation properties and star properties. 

Lecture 2.1 - Compressibility Effects (Lecture)

Lecture 2.2 - 1-D flow dynamics and properties (Lecture)

Chapter 3: One-dimensional flows

This section discusses one-dimensional flows in varying area ducts and normal shocks. 

Lecture 3.1 - Quasi 1-D Isentropic Flow (Lecture)

Lecture 3.2 - Normal Shock Waves - 1 (Lecture)

Lecture 3.3 - Normal Shock Waves - 2 (Lecture)

Chapter 4: Two-dimensional flows

This section discusses two-dimensional flows, including expansion waves, oblique shocks, and wave drag over bluff bodies due to these waves. 

Lecture 4.1 - Expansion Waves (Lecture)

Lecture 4.2 - Oblique Shocks - 1 (Lecture)

Lecture 4.3 - Oblique Shocks - 2 (Lecture)

Lecture 4.4 - Shocks in Bluff Body Flows (Lecture)

Lecture 4.5 - Shock interactions (Lecture)

Chapter 5: Nozzle and Diffusers

This section discusses compressible fluid flows through ducts, nozzles and diffusers, a combination of which usually constitutes a wind tunnel.

Lecture 5.1 - Nozzle and Diffusers (Lecture)

Lecture 5.2 - Wind tunnels (Lecture)

Chapter 6: Flow with friction and heat transfer

This section discusses compressible fluid flows through ducts with heat transfer and frictional resistance.

Lecture 6.1 - Flow with Heat Transfer (Lecture)

Lecture 6.2 - Flow with Friction (Lecture)

Lecture 6.3 - Rayleigh and Fanno Curves (Lecture) new

Chapter 7: Measurement Techniques

This section discusses various measurement principles deployed for compressible fluid flows.

Lecture 7.1 - Measurement Techniques (Lecture) new