Aircraft Maintenance Engineering (AME) Course Syllabus

Aircraft Maintenance Engineering (AME) is a comprehensive program designed to equip individuals with the knowledge and skills required for the maintenance and safety of aircraft. The course is structured into modules, each covering specific aspects of aviation technology. In this guide, we explore the AME course syllabus by modules, offering insights into the diverse subjects and practical training that form the foundation of this dynamic field.

AME Modules Overview

The AME course is typically divided into theoretical and practical modules, providing a balanced approach to learning. The modules are designed to cover a range of subjects, ensuring that students gain a holistic understanding of aircraft systems, regulations, and maintenance procedures.

Module 1: Mathematics and Physics


  • Basic Mathematics: Arithmetic, algebra, and geometry.
  • Trigonometry: Trigonometric functions and applications.
  • Calculus: Fundamental concepts and applications in aviation.


  • Mechanics: Laws of motion, force, and energy.
  • Thermodynamics: Principles of heat and temperature.
  • Optics: Properties of light and its applications.
  • Electromagnetism: Basics of electrical and magnetic fields.

Module 2: Basic Electronics

  • Fundamentals of Electronics: Introduction to electronic components.
  • Digital Electronics: Binary system, logic gates, and digital circuits.
  • Analog Electronics: Operational amplifiers, amplifiers, and oscillators.
  • Microprocessors: Basics of microprocessor architecture.

Module 3: Aircraft Materials and Hardware

  • Aircraft Materials: Characteristics and properties of materials used in aircraft construction.
  • Aircraft Hardware: Identification and usage of various hardware components in aircraft.

Module 4: Civil Airworthiness Requirements

  • Regulatory Framework: Overview of national and international aviation regulations.
  • Airworthiness Standards: Understanding and implementing airworthiness requirements.
  • Aircraft Certification: Procedures for obtaining and maintaining aircraft certifications.

Module 5: Aerodynamics

  • Basic Aerodynamics: Principles of lift, drag, and thrust.
  • Flight Mechanics: Understanding aircraft stability and control.

Module 6: Aircraft Systems and Instruments

  • Aircraft Systems: Study of various aircraft systems, including hydraulic, pneumatic, and fuel systems.
  • Instruments and Avionics: Operation and maintenance of aircraft instruments and avionics systems.

Module 7: Aircraft Powerplant

  • Aircraft Engines: Types of aircraft engines and their components.
  • Powerplant Systems: Understanding engine systems, fuel systems, and ignition systems.

Module 8: Aircraft Propellers

  • Propeller Systems: Study of propeller components and their maintenance.
  • Propeller Pitch Control: Understanding the principles of propeller pitch.

Module 9: Maintenance Practices

  • Aircraft Inspection: Techniques for inspecting aircraft for defects.
  • Repair and Overhaul: Procedures for repairing and overhauling aircraft components.

Module 10: Human Factors

  • Human Performance: Understanding human factors in aviation.
  • Crew Resource Management: Enhancing communication and teamwork in aviation.

Practical Training

In addition to the theoretical modules, practical training is a crucial component of the AME course. Students undergo hands-on training in workshops and aircraft hangars, applying theoretical knowledge to real-world scenarios. Practical training covers tasks such as aircraft inspection, component replacement, and troubleshooting.

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