Imperial College London (ICL)

Summary notes on Aerodynamics module, covering the fundamentals of compressible and incompressible aerodynamics, and wing aerodynamics. Topics include: - Aerodynamic coefficients - Control volume analysis - Equations of motion - Streamline motion - Method of images - Airfoil theory - 3D wing effects - Convergent/divergent nozzles - Wind tunnel - Shocks and shock interactions

Summary notes on entire content of 2nd year mathematics module on vector calculus. Hand-written, coloured notes, with images, graphs, equations, derivations, and relevant tips. Topics include: - Cartesian, cylindrical, and spherical coordinates - Linear algebra - Gradient, Laplacian, and Jacobian operators - Surface and volume integrals - Eigenvalue problem

Summary notes on entire content of Control Systems module. Hand-written, coloured notes, with images, graphs, equations, derivations, and relevant tips. Topics include: - State space control theory - Feedback and feedforward control - System linearisation - Observability and reachability - Proportional, integral, and derivative (PID) control - Frequency-based (classic) control theory - Transfer functions - Root locus diagrams - Body and Nyquist plots - Stability margins - Loop shaping

Summary notes on Aircraft Structural Analysis module. Hand-written, coloured notes, with images, graphs, equations, derivations, and relevant tips. Topics include: - Open and closed tubes in torsion and shear - Structural idealisations - Plate bending theory - Plate buckling - Shear stress and shear flow - Multi-cell tube analysis

Summary notes on Spacecraft Structural Analysis module. Hand-written, coloured notes, with images, graphs, equations, derivations, solved practice questions and relevant tips. Topics include: - Launch vibration analysis - Load modelling - Coupled loads analysis - Shock response - Analysis of mechanisms and membranes - Space environmentall effects and mitigation

Summary notes on Structural Dynamics module.. Hand-written, coloured notes, with images, graphs, equations, derivations, and relevant tips. Topics include: - Hamilton's principle and Lagrange's equations - Modal analysis - Numerical schemes - Structural damping - Static and dynamic aeroelasticity

Summary notes on entire content of Finite Elements Method (FEM) module, covering the fundamentals of finite element theory that can be applied to analysing structural, fluid, and thermodynamics problems. Hand-written, coloured notes, with images, graphs, equations, derivations, and relevant tips. Topics include: - Fundamentals of FEM/FEA - Shape functions - Beam finite element methods - Numerical methods - Triangle and quadrilateral elements - Stress, strain, and distortion analysis

Summary notes on Aircraft Aerodynamics module. Hand-written, coloured notes, with images, graphs, equations, derivations, and relevant tips. Topics include: - Navier-stokes equations - Steady and unsteady flow - Compressible and incompressible flow - Subsonic, transconic, and supersonic aerodynamics - Laminar and turbulent boundary layers and transition - Flow in a pipe - Acoustic theory - Method of characteristics - Airfoil and wing analysis - Basics of hypersonics

Summary notes on Hypersonic Aerothermodynamics module. Hand-written, coloured notes, with images, graphs, equations, derivations, and relevant tips. Topics include: - Hypersonic shock theory - Hypersonic expansion waves - Viscous interaction - Compressible boundary layers - Entropy layers - Non-ideal gas effects

Summary notes on entire content of optimisation module, relevant to mathematics, engineering, science, and economincs. Hand-written, coloured notes, with images, graphs, equations, derivations, and relevant tips to help you understand the fundamentals of optimisation theory. Topics include: - Mathematical background - Optimisation problem formulation - Constrained and unconstrained optimisation - First and second-order conditions of optimality - Non-linear programming - Global optimation - Descr...