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AMS 112: Fundamentals of Electricity

3.00 Credits

Embry-Riddle Aeronautical University-Daytona Beach

An introduction to direct and alternating current electricity, electrical circuit design and measuring devices, transformers, and electronic devices and applications. Emphasis will be on voltage, current, resistance, and impedance relationships. Lectures are reinforced with laboratory projects.

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AMS 121: Electrical Power Systems I

2.00 Credits

Embry-Riddle Aeronautical University-Daytona Beach

The theory behind aircraft wiring, basic electrical lighting in airframe systems, and DC electrical power systems, generators, and batteries is developed in depth through the use of laboratory projects and classroom material. Prerequisite: AMS 112.

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AMS 122: Metallic Structures

2.00 Credits

Embry-Riddle Aeronautical University-Daytona Beach

A study of aircraft metallic structures with emphasis on aluminum sheet metal applications and their manufacture, repair, and inspection. Through an intensive lab project and in-depth theory discussions, the student will come to understand metal-working processes and skills necessary for airworthy manufacture and repair. Also included are aircraft painting and finishing materials. Prerequisites: AMS 101, AMS 102, AMS 103, AMS 111.

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AMS 123: Instruments and Avionics

2.00 Credits

Embry-Riddle Aeronautical University-Daytona Beach

An overview of current aviation electronic systems (avionics), electromechanical instrumentation, and antenna installation practices. Additional theory of today's electronic instruments and flight management systems, including autopilot, will also be discussed. Prerequisites: AMS 102, AMS 112.

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AMS 131: Composite Materials and Processes

3.00 Credits

Embry-Riddle Aeronautical University-Daytona Beach

(6.5,6)

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AMS 132: Aircraft Systems I

2.00 Credits

Embry-Riddle Aeronautical University-Daytona Beach

Classroom theory and practical application will involve the operating, service, and line maintenance of heating, cooling, pressurization, oxygen, fire warning, and various fuel systems found in current regional jets. Prerequisites: AMS 101, AMS 102, AMS 103, AMS 111, AMS 112.

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AMS 133: Aircraft Systems II

2.00 Credits

Embry-Riddle Aeronautical University-Daytona Beach

Operating principles and basic troubleshooting techniques for hydraulic and pneumatic components and systems will be discussed in the class, with practical lab situations for reinforcement. Component maintenance, repair, and overhaul will be emphasized for landing gear, anti-skid, and braking systems found in today's turbine-powered aircraft. Prerequisites: AMS 102, AMS 103, AMS 112.

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AMS 242: Airframe Maintenance Practices

3.00 Credits

Embry-Riddle Aeronautical University-Daytona Beach

The application of FAA type certificate data sheets, aircraft records, maintenance publications, and Federal Regulations pertinent to airframe inspections that are required by both general and commercial aviation aircraft are covered in theory and applied on Embry-Riddle flight line aircraft. This includes rigging and assembly techniques that are found in current general aviation and jet-type aircraft. Also included are basic welding techniques and welding repairs, gas and electric. Prerequisites: AMS 103, AMS 111, AMS 112.

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AMS 243: Electrical Power Systems II

3.00 Credits

Embry-Riddle Aeronautical University-Daytona Beach

The maintenance, repair, and overhaul of electrical power system components and advanced aircraft electrical systems are addressed in the classroom and the laboratory. Jet-type aircraft systems found in current production aircraft are covered through classroom and computer-based instruction. Prerequisites: AMS 103, AMS 111, AMS 121.

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AMS 251: Introduction to Powerplants

2.00 Credits

Embry-Riddle Aeronautical University-Daytona Beach

Reciprocating engine disassembly, inspection, and reassembly procedures are practiced in the lab. In the classroom the study of the theory of these procedures and techniques for reciprocating aircraft engine components and their operation are discussed with emphasis on the design, FAA regulations, and mechanic limitations found in the aviation industry. Prerequisites: AMS 101, AMS 102, AMS 103, AMS 111.

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