Aerospace engineering/Areas of study

General Prerequisites

 * Basic mathematics - differentials, integrals, basic mechanics, vector algebra, matrices and matrix manipulation, total derivative (for mass and momentum equations, among others)
 * Calculus (Wikibook)
 * Differential Equations (Wikibook)
 * Thermodynamics/Heat Transfer - Zereoth, First, Second and Third Laws, Enthalpy, Entropy, Clausius Inequality and ??, Steady State Equation, Modelling Gas Turbines/Engines, Conduction, Convection, Radiation (Black body, Grey Body)
 * Engineering Thermodynamics (Wikibook)
 * Circuits/Electronics
 * Physics - Forces, Gravity Equation
 * Gravity (Wikibook)

Statics

 * Structural analysis
 * Mechanics - Friction on a surface, Rolling bodies, Stability, Pure/Damped/Forced Harmonic Motion, Orbits (reaching orbit, geostationary point, changing orbit, escape velocity)
 * Solid Mechanics (Wikibook)

Fluid mechanics

 * Aerodynamics - Derivation of shear stress on a fluid, perfect gas equation, Bernoulli equation, Langrangian and Eulerian reference frames, control volumes and control surfaces, Conservation of mass up to 3-d, balance of momentum equations up to 3-d, Aerofoils, Circulation, Mach number & Reynolds Number, laminar and turbulent flow, Propulsion & Turbomachinery

Wikibooks
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 * Aerodynamics
 * Jet Propulsion
 * Rocket Propulsion

Aircraft Structures

 * Basic strength of materials
 * Basic aircraft structures
 * Advanced aircraft structures
 * Structural analysis
 * Recent Topics

Aircraft Systems

 * Flight control systems
 * Electrical power system
 * Hydraulic systems
 * Flight control actuation systems
 * Fuel system
 * Airsystem
 * Landing gear

Materials Science

 * Material classes - Metals, Ceramics, Composites, Polymers, Ionic and Covalents
 * Material microstructure
 * Properties of materials - Strength, Stiffness, Young's Modulus, Elasiticity and Modulus of Elasticity, Hardness, Toughness, Electrical Properties?
 * Materials selection
 * Material processes - Annealing, Quenching, Precipitation Hardening, Case Hardening
 * Failure - Fatigue, Creep, Fracture, Case studies (aircraft)
 * Composites - matrix and fibers, explanation of directional properties, case studies (carbon fibre, kevlar, fibreglass)

Wikibook

 * Material Science

Aircraft Design

 * Basic aircraft performance - Air density at altitudes, Perfect Gas equation,
 * Dynamics and control - Control Surfaces,

Aviation engines
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 * Hydraulic gas dynamics - characteristics of gas flowing through
 * Theory of impeler machines - profiling blades of compressor and turbine, multi-stage compressor and multi-stage turbine
 * Theory of jet engines - modeling turbojet engines
 * Construction of jet engines

Computational fluid dynamics

 * Introduction to fluid dynamics
 * Principles of fluid dynamics
 * Solver Types
 * Grid Generation

Aeroelasticity

 * Introduction aeroelasticity
 * Static aeroelasticity
 * Dynamic aeroelasticity
 * Flight testing

Rover design

 * Rover Mission Analysis and Design