| Analyzes the structure and function of aircraft stabilizers. |
| Examines the connection of control surfaces with stabilizers and understands their impact on the aerodynamic structure. |
| Analyzes the structure and connections of flight control surfaces. |
| Understands the balancing techniques of flight control surfaces, including mass and aerodynamic balancing methods. |
| Analyzes the structure of nacelles, the function of firewalls, and the motor connections. |
| Examines the functions of nacelle structures on the aircraft and determines the maintenance requirements. |
| Understands the operating principles of air conditioning and cabin pressurization systems, and how they control the internal environment of the aircraft. |
| Explains how air is sourced from engines, APU (Auxiliary Power Unit), and ground service equipment. |
| Learns the operating principles of air cycle and vapor cycle machines. |
| Analyzes the operation of distribution systems, airflow, temperature, and humidity control systems. |
| Examines pressurization systems and understands pressure control, including related control and safety valves. |
| Analyzes cabin pressure control systems and evaluates their effects on the internal environment of the aircraft. |
| Learns the functions of safety and warning devices that regulate the aircraft's internal environment. |
| Explains how these systems contribute to flight safety and how they operate. |
| Learns the operation of Pitot-static, gyroscopic, compass, and other avionics systems. |
| Explains how devices such as altimeters, airspeed indicators, vertical speed indicators, artificial horizons, attitude indicators, heading indicators, and turn coordinators are used and their importance during flight. |
| Understands the structure and function of glass cockpit systems. |
| Comprehends the role of aircraft system indicators in the overall functioning of the aircraft and understands the importance of their maintenance. |