Lecture 1 - Introduction
Lecture 2 - Wing Loading and Thrust Loading
Lecture 3 - Basic Design - Lift and Drag
Lecture 4 - Range and Endurance
Lecture 5 - Mission Requirements
Lecture 6 - Range and Endurance : Propeller-driven Aircraft
Lecture 7 - Fuel Consumption : Cruise Flight
Lecture 8 - L/D for Maximum Range and Endurance
Lecture 9 - Range and endurance for Jet-driven Aircraft
Lecture 10 - Estimation of Fuel for a Mission
Lecture 11 - Design Considerations : Power Plant, Gross Weight
Lecture 12 - Design Considerations : Aerofoil Selection
Lecture 13 - Design Considerations : Wing
Lecture 14 - Wing Design: Aerofoil
Lecture 15 - Wing Design:t/c, Camber and Leading Edge Radius
Lecture 16 - Wing Design: Aspect Ratio
Lecture 17 - Wing Design: Sweep, Twist and Taper Ratio
Lecture 18 - Wing Arrangements
Lecture 19 - Tail Arrangements
Lecture 20 - Tail Arrangements (Continued...)
Lecture 21 - Aircraft Structure
Lecture 22 - Wing Loading and Power Loading
Lecture 23 - Thrust Loading and Wing Loading
Lecture 24 - Thrust Loading
Lecture 25 - Wing Loading
Lecture 26 - Wing Loading : Maneuver,Climb and glide
Lecture 27 - Take off: Wing Loading and Thrust Loading
Lecture 28 - Take off: Vstall and High Life Devices
Lecture 29 - Wing Loading: Take off and Landing
Lecture 30 - Revision (Wing Loading and Thrust Loading)
Lecture 31 - Numerical: Wing Loading
Lecture 32 - Wing Loading: Designers Approach
Lecture 33 - Stability Considerations
Lecture 34 - Static Stability Basics
Lecture 35 - Wing and tail contribution to Longitudinal Static Stability
Lecture 36 - Conceptual Design
Lecture 37 - Conceptual design (Continued...)
Lecture 38 - Elevator Effectiveness
Lecture 39 - Elevator Effectiveness (Continued...)
Lecture 40 - Numerical - Pitching moment
Lecture 41 - Numerical - Elevator Effectiveness
Lecture 42 - Aircraft Maintenance Guidelines
Lecture 43 - Inspection for Aircraft
Lecture 44 - Numerical of Weight Fraction
Lecture 45 - Inspection of Sinus 912 Motor Glider
Lecture 46 - Numericals