400
This class studies grammar, spelling, composition of letters of application, resumes, references and the use of a word processor. A technical project report is completed during the semester. 45 contact hours (45 lecture). Meets requirements of 14 CFR 147.
3
This course provides a study of the history of jet engines, turbojet and turboprop engine components and systems, gas turbine troubleshooting and trimming. 150 contact hours (60 lecture/90 lab). Meets requirements of 14 CFR 147.
4
The theory and operation of propellers and governors, as well as overhaul and servicing of fixed-pitch, ground-adjustable, controllable and turboprop propellers are studied. 120 contact hours (60 lecture/60 lab). Meets requirements of 14 CFR 147.
4
To propel aircraft through the stratosphere with greater efficiency, faster speeds, and less carbon emissions, new propulsion systems have been engineered. This class covers commercial aircraft Turbofan Engines, Scramjet, Space Rocketry and Thruster propulsion systems.
3
Prerequisites
AVMT 31000 and AVMT 41000
This class covers advanced aluminum sheet metal repairs and advanced composite concepts and projects. The cutting edge of aircraft structural technology is addressed including commercial applications, space utilization, and supersonic structures.
3
Prerequisites
AVMT 11000 and AVMT 21000
This course reviews types of inspections, use of inspection forms, log book entries, use of FAA publications, shop management responsibilities, engine operating procedures, troubleshooting, symptoms and diagnoses and engine instrumentation. 180 contact hours (60 lecture/120 lab). Meets requirements of 14 CFR 147.
4
Prerequisites
AVMT 31000 and AVMT 33000
Aircraft require advanced sub-systems to operate at high operational levels. Life support systems, pneumatics, bleed-air, pressurization, fly-by-wire or optic, and hydraulic systems are covered. With advancements in satellite navigation, advanced computer guidance and advanced multifunction display systems are also addressed in detail.
3
Prerequisites
AVMT 33000
Students will apply fundamental skillsets required to an active aircraft maintenance shop. Students will improve areas found to be deficient and will learn to streamline maintenance hangar operations.
3
This course will familiarize the student with the functions and responsibilities of an aviation maintenance manager. Maintenance management at fixed based operator, commuter/regional airline, and major air carrier levels will be studied. Aviation maintenance management problem areas will be reviewed using case study methodologies.
3
Prerequisites
BSAD 20000 and BSAD 36000
Students learn about the design, operation, and maintenance of small- to medium-size helicopters. Part of the time is spent on the actual overhaul of light helicopters. 60 contact hours (60 combined lecture/lab).
4
Prerequisites
Consent of Department Chair.
Students will demonstrate mastery of the entire Aviation and Aerospace Technology program. Students will be asked to repair anomalies, build models, test systems, and demonstrate an in-depth knowledge of advanced aviation and aerospace technology. A written report and project portfolio will be required. The paper and projects will be collaborative and will include input on pertinent topics from the instructor.
3
Prerequisites
AVMT 34500, AVMT 42500, AVMT 42700, AVMT 43500, FAA Airframe and Powerplant License
Students are placed in various aviation-related positions, arranged with an advisor, to provide them with on-the-job experience. A minimum of 120 contact hours required.
0-3
Prerequisites
Junior standing and consent of faculty internship coordinator.
This course is designed to meet the needs of aviation majors by allowing them to study an advanced topic not found in regular courses.
1-3
Prerequisites
Consent of Department Chair. To qualify for an Independent Study, a student must have successfully completed 60 credit hours, at least 12 of which were earned at Lewis, and have earned at Lewis University a minimum 3.0 cumulative GPA.