Aim of this note
is to be indispensable source in Aeronautical Engineering which has a zeal to
provide the value driven platform for the students to acquire knowledge and
empower themselves to shoulder higher responsibility in building a strong
nation.
This note covers overview, About NASA
Aeronautics, About the AAPT, Scaling and Paper Airplanes, Real-World
Applications: Estimating the Speed and Distance of an Airplane, Discovery Lab
Airplane Dynamics , Engine Thrust, Braking, and Lift, Literary Data Analysis Prepare for Landing, Rubber-Band-Driven Airplane
Contest, Interactive Demonstration Demonstration of Newton’s Third Law Using a
Balloon Helicopter, Real-World Applications Measuring the Moment of Inertia of
an Airplane,kNASA Resources and AAPT Resources.
Author(s): NASA Aeronautics and the American
association of physics teachers
This PDF covers the following topics related to
Aeronautics : Overview, Physics Aeronautics, Standards and Best Practices,
Scientific Thinking, Constant Velocity, Uniform Acceleration, Terminal Velocity,
Literary/Data Analysis: Flying with Finesse, Force Particle – Inertia, Constant
Net Force, 2-D Combination, Energy, Rotational Motion.
Author(s): NASA Aeronautics and the American
Association of Physics Teachers
This note
describes the following topics: Flight Dynamics, Aerodynamic Background, Static
Longitudinal Stability and Control, Dynamical Equations for Flight Vehicles,
Dynamic Stability, Control of Aircraft Motions.
Design for Manufacturing is a design methodology that reduces
manufacturing time and cost by integrating design and manufacturing processes.
It will focus on design and manufacturing of products with the applications of
appropriate technology.
This note covers the following topics:
Visualization of Complex Flow Structures by Matched Refractive-Index PIV Method,
Plasma Flow Control, Nonequilibrium Plasma Aerodynamics, Numerical Investigation
of Plasma Flows Inside Segmented Constrictor Type Arc-Heater, A Frequency-Domain
Linearized Euler Model for Noise Radiation, High-Order Numerical Methods for
BiGlobal Flow Instability Analysis and Control, Rotorcraft Design for Maximized
Performance at Minimized Vibratory Loads, Concurrent Subspace Optimization for
Aircraft System Design, Developing Risk Models for Aviation Inspection and
Maintenance Tasks.