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Introduction to Aerospace Engineering

Introduction to Aerospace Engineering. Instructor: Prof. Rajkumar Pant, Department of Aerospace Engineering, IIT Bombay. The aim of this course is to provide a general overview of the field of Aeronautical Engineering to interested students. Each Lecture will cover a specific concept or area relevant to the subject. An attempt will be made to cover the contents in an interesting manner, by a judicious use of a mix of powerpoint presentations, in-class activities, quizzes, innovative and hands on assignments that will not only increase the awareness of the students, but also satiate their curiosity and desire to know more about the various concepts related to the subject. (from nptel.ac.in)

Lecture 16 - Pressure Measurement


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Lecture 01 - Course Overview
Lecture 02 - Introduction to International Standard Atmosphere (ISA)
Lecture 03 - Pressure, Temperature, Density and Viscosity Variation with Altitude in ISA
Lecture 04 - Other Standard Atmospheres
Lecture 05 - Aircraft Component Nomenclature: Wing and its Components
Lecture 06 - Aircraft Component Nomenclature: Fuselage and its Components
Lecture 07 - Aircraft Component Nomenclature: Tail Plane and its Components
Lecture 08 - Tutorial: Aircraft Component Nomenclature
Lecture 09 - Essentials of Incompressible Flow
Lecture 10 - Essentials of Incompressible Flow (cont.)
Lecture 11 - Bernoulli's Equation and Coanda Effect
Lecture 12 - Mach Number
Lecture 13 - Tutorial: Incompressible Flow and Flow Visualization
Lecture 14 - Viscous Flow and Reynolds Number
Lecture 15 - Introduction to Boundary Layer
Lecture 16 - Pressure Measurement
Lecture 17 - Air Speed Measurement: Pitot Static Tube
Lecture 18 - Air Speed Corrections
Lecture 19 - Altitude and ROC/ROD Measurement
Lecture 20 - Measurements in Compressible Flows
Lecture 21 - Non Pneumatic Instruments
Lecture 22 - Introduction to Aerofoils and Aerofoil Nomenclature
Lecture 23 - Aerofoils: A Visit to the Past
Lecture 24 - Thick Aerofoils
Lecture 25 - Low Reynolds Number Aerofoils
Lecture 26 - Lift Generation by Wings
Lecture 27 - Lift Generation by Wings (cont.)
Lecture 28 - Coefficient of Lift and Coefficient of Pressure
Lecture 29 - Tutorial on Aerofoils
Lecture 30 - Critical Mach Number
Lecture 31 - Wave Drag
Lecture 32 - Swept Wings
Lecture 33 - Introduction to Drag and Types of Drag
Lecture 34 - Factors Affecting Induced Drag
Lecture 35 - Skin Friction Drag
Lecture 36 - Tutorial on Critical Mach Number and Wave Drag
Lecture 37 - Introduction to Propulsion
Lecture 38 - Gas Turbine Engine Types
Lecture 39 - Gas Turbine Engine Types (cont.)
Lecture 40 - Introduction to Electric Propulsion and Ion Propulsion
Lecture 41 - Steady Level Flight
Lecture 42 - Power Required for the Steady Level Flight
Lecture 43 - Steady Level Flight: A Pilot's View
Lecture 44 - Tutorial on Steady Level Flight
Lecture 45 - Gliding Flight
Lecture 46 - Climbing Flight and Ceiling
Lecture 47 - Introduction to Turning Flight
Lecture 48 - Turning Flight Equations
Lecture 49 - Instantaneous and Sustained Turn
Lecture 50 - Tutorial on Climbing Flight and Turning Flight
Lecture 51 - Introduction to Static Stability: Center of Pressure, Center of Gravity and Neural Point
Lecture 52 - Aerodynamic Center and Effect of Center of Gravity
Lecture 53 - Effect of Center of Gravity: A Practical Demonstration
Lecture 54 - Introduction to V-N Diagram
Lecture 55 - V-N Diagram as Per FAR 23 Regulations
Lecture 56 - Effects of Gusts on V-N Diagram
Lecture 57 - Tutorial on Stability and Control
Lecture 58 - Range
Lecture 59 - Specific Fuel Consumption and Generalized Range Equation
Lecture 60 - Endurance
Lecture 61 - Take-off Performance of Flight
Lecture 62 - Take-off Performance of Flight (cont.)
Lecture 63 - Landing Performance of Flight
Lecture 64 - Tutorial on Range Payload Diagram
Lecture 65 - Tutorial on Range and Endurance
Lecture 66 - Flapping Wing Aerodynamics
Lecture 67 - Flapping Wing Aerodynamics (cont.)