Aircraft Engineering Principles, 2nd ed
Aircraft Engineering Principles is the essential text for anyone studying for licensed A&P or Aircraft Maintenance Engineer status. The book is written to meet the requirements of JAR-66/ECAR-66, the Joint Aviation Requirement (to be replaced by European Civil Aviation Regulation) for all aircraft engineers within Europe, which is also being continuously harmonised with Federal Aviation Administration requirements in the USA.
The book covers modules 1, 2, 3, 4 and 8 of JAR-66/ECAR-66 in full and to a depth appropriate for Aircraft Maintenance Certifying Technicians, and will also be a valuable reference for those taking ab initio programmes in JAR-147/ECAR-147 and FAR-147. In addition, the necessary mathematics, aerodynamics and electrical principles have been included to meet the requirements of introductory Aerospace Engineering courses. Numerous written and multiple choice questions are provided at the end of each chapter, to aid learning.
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Appendix A Opportunities for licence training education and career progression
Appendix B National and international licensing and examination centres
System International and Imperial units
Appendix E Multiplechoice revision paper questions
The states of matter
Light waves and sound
acceleration aerofoil AIRCRAFT ENGINEERING PRINCIPLES aircraft maintenance amplifier angle applied atoms axis binary number body calculator capacitance capacitor Category cell charge circuit coil components conductor constant convert current flowing defined density determine diagram differential digit diode distance EASA ELECTRICAL FUNDAMENTALS electrons energy equal equation EXAMPLE factors fluid flux force formula fraction frequency function given graph heat height hexadecimal increase inductance inductor input KEY POINT lift force light load logarithms magnetic field mass material maximum measure motion motor multiply negative octal operational amplifier output voltage phasor positive pressure produce radian ratio reactance relationship resistance resistor result rotating rotor shown in Figure simple SOLUTION specific heat capacity speed supply surface Table temperature TEST YOUR UNDERSTANDING torque transistor transverse waves triangle units variable velocity viscosity waveform waves wing Zener diode zero