EASA part 66 / JAR–66  Syllabus              Quiz2.1   <>   CAA exam 50 questions

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Books to study Module 2       


Books for this module from Amazon US
Aviation Mechanic Handbook by Dale Crane for reference
Mathematics and Physics for Aviation Personnel (3rd ed - JS312619) by Charles E. Dole
Physics for Aviation   Noel Sister Dreska, Leonard Weisenthal
Physics: The Easy Way by Robert L. Lehrman
Aircraft Basic Science by Michael J. Kroes, James R. Rardon
Aircraft Basic Science by Ralph D. Bent

Books for this module from Amazon UK
Aviation Mechanic Handbook  Dale Crane  for Reference
Teach Yourself Physics: Popular Science (Teach Yourself - General) by Jim Breithaupt
Physics for You  Keith Johnson, Nelson Thornes
Complete Physics by Stephen Pople
Explaining Physics: GCSE Edition  Stephen Pople
Physics Made Simple  Ira M. Freeman, William J. Durden
Physics the Easy Way (Barron's Easy Way) Robert L. Lehrman
Aircraft Basic Science  Michael J. Kroes, James R. Rardon  McGraw Hill

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2. PHYSICS

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Students should become conversant with Metric, imperial (British) and US units and measurements,

MODULE 2 — PHYSICS
Category A: 32 multi-choice and 0 essay questions. Time allowed 40 minutes.
Category B1: 52 multi-choice and 0 essay questions. Time allowed 65 minutes.
Category B2: 52 multi-choice and 0 essay questions. Time allowed 65 minutes.
Category B3: 28 multi-choice and 0 essay questions. Time allowed 35 minutes.

MODULE 2. PHYSICS
LEVEL
A    B1    B2    B3
2.1 Matter
1    1    1    1
Nature of matter: the chemical elements, structure of atoms, molecules;
Chemical compounds;
States: solid, liquid and gaseous;
Changes between states.

2.2 Mechanics
2.2.1 Statics
1    2    1    1
Forces, moments and couples, representation as vectors;
Centre of gravity;
Elements of theory of stress, strain and elasticity: tension, compression, shear and torsion;
Nature and properties of solid, fluid and gas;
Pressure and buoyancy in liquids (barometers).

2.2.2 Kinetics
1    2    1    1
Linear movement: uniform motion in a straight line, motion under constant acceleration (motion under gravity);
Rotational movement: uniform circular motion (centrifugal/centripetal forces);
Periodic motion: pendular movement;
Simple theory of vibration, harmonics and resonance;
Velocity ratio, mechanical advantage and efficiency.

2.2.3 Dynamics
1    2    1    1
(a) Mass; Force, inertia, work, power, energy (potential, kinetic and total energy), heat, efficiency;
1    2    2    1
(b) Momentum, conservation of momentum; Impulse; Gyroscopic principles; Friction: nature and effects, coefficient of friction (rolling resistance).

2.2.4 Fluid dynamics
2    2    2    2
(a) Specific gravity and density;
1    2    1    1
(b) Viscosity, fluid resistance, effects of streamlining; Effects of compressibility on fluids; Static, dynamic and total pressure: Bernoulli’s Theorem, venturi.

2.3 Thermodynamics
2    2    2    2
(a) Temperature: thermometers and temperature scales: Celsius, Fahrenheit and Kelvin; Heat definition;
—    2    2    1
(b) Heat capacity, specific heat; Heat transfer: convection, radiation and conduction; Volumetric expansion; First and second law of thermodynamics; Gases: ideal gases laws; specific heat at constant volume and constant pressure, work done by expanding gas; Isothermal, adiabatic expansion and compression, engine cycles, constant volume and constant pressure, refrigerators and heat pumps; Latent heats of fusion and evaporation, thermal energy, heat of combustion.

2.4 Optics (Light)
—    2    2    —
Nature of light; speed of light;
Laws of reflection and refraction: reflection at plane surfaces, reflection by spherical mirrors, refraction, lenses;
Fibre optics.

2.5 Wave Motion and Sound
—    2    2    —
Wave motion: mechanical waves, sinusoidal wave motion, interference phenomena, standing waves;
Sound: speed of sound, production