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High Speed Aerodynamics

High Speed Aerodynamics. Instructor: Prof. K. P. Sinhamahapatra, Department of Aerospace Engineering, IIT Kharagpur. The course introduces the fundamental concepts and principles of compressible flow and intends to provide the necessary background for advanced studies on the subject. A number of application problems are incorporated to illustrate the concepts. The course covers the general principles and essentials of compressible flow, the flow equations, one-dimensional gas dynamics, wave motion and waves in supersonic flow, flow in ducts, small-perturbation theory, method of characteristics and similarity rules. The exercises included in the course are intended to demonstrate the use of the course material and to outline additional equations and results. Even though the course is prepared mainly for the use of undergraduate students in aerospace engineering, it will also be useful to graduate students, teachers and practicing engineers and scientists (from nptel.ac.in)

Lecture 21 - Isothermal Flow in Ducts with Friction


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Lecture 01 - Introduction and Review of Thermodynamics
Lecture 02 - Review of Thermodynamics
Lecture 03 - Second Law of Thermodynamics
Lecture 04 - Some Useful Topics in Thermodynamics for High Speed Aerodynamics
Lecture 05 - One-dimensional Gas Dynamics
Lecture 06 - One-dimensional Gas Dynamics (cont.)
Lecture 07 - One-dimensional Gas Dynamics (cont.)
Lecture 08 - One-dimensional Waves
Lecture 09 - One-dimensional Waves (cont.)
Lecture 10 - One-dimensional Waves (cont.)
Lecture 11 - Waves and Supersonic Flow: Oblique Shock Relations
Lecture 12 - Waves and Supersonic Flow: Weak Shocks and Mach Waves
Lecture 13 - Waves and Supersonic Flow: Supersonic Expansion by Turning
Lecture 14 - Waves and Supersonic Flow (cont.)
Lecture 15 - Shock Expansion Theory
Lecture 16 - Flow through Ducts and Channels
Lecture 17 - Flow through Converging and Converging-Diverging Ducts
Lecture 18 - Flow in Converging-Diverging Nozzles
Lecture 19 - Adiabatic Flow in Ducts with Friction
Lecture 20 - Adiabatic Flow in Ducts with Friction (cont.)
Lecture 21 - Isothermal Flow in Ducts with Friction
Lecture 22 - Flow in Uniform Duct with Heating
Lecture 23 - Multi-dimensional Flow Problems
Lecture 24 - Multi-dimensional Flow Problems (cont.)
Lecture 25 - Linearized Flow Problems
Lecture 26 - Linearized Flow Problems: Ackeret's Problem
Lecture 27 - Linearized Flow Problems: Supersonic Flow over a Wavy Wall
Lecture 28 - Linearized Flow Problems: Supersonic Flow over Wings
Lecture 29 - Linearized Flow Problems: Pressure Coefficient
Lecture 30 - Linearized Supersonic Flow Problems: Potential Function
Lecture 31 - Linearized Flow Problems: Non-axisymmetric Flow over a Body of Revolution
Lecture 32 - Linearized Problems - Forces on Slender Bodies
Lecture 33 - Linearized Problems - Forces on Slender Bodies (cont.)
Lecture 34 - Similarity Rules for High Speed Flows
Lecture 35 - Similarity Rules for High Speed Flows (cont.)
Lecture 36 - Similarity Rules for High Speed Flows (cont.)
Lecture 37 - Similarity Rule in Hypersonic Flow
Lecture 38 - Transonic Flow
Lecture 39 - Transonic Flow (cont.)
Lecture 40 - Transonic Flow (cont.)