Tuition and related ancillary fees for this program can be viewed by using the Tuition and Fees Estimator tool at www. Should the number of qualified applicants exceed the number of available places, applicants will be selected on the basis of their proficiency in English and mathematics. Applications to full-time day programs must be submitted with official transcripts showing completion of the academic admission requirements through:. Students currently enrolled in an Ontario secondary school should notify their Guidance Office prior to their online application at www.
Applications for Fall Term and Winter Term admission received by February 1 will be given equal consideration.
Applications received after February 1 will be processed on a first-come, first-served basis as long as places are available. Students are responsible for transportation and associated costs. To become a licenced aircraft maintenance engineer, Transport Canada requires an individual to complete two years of basic training at an approved institution followed by 48 months of full-time employment. The program runs in a week term in the Fall, and in a week term in Winter. Start date is one week prior to most other College programs. For more information, please contact Serge Cote Program Coordinator, at ext.
Choosing a program that suits you is the first step to a great career. This quiz might help you decide. Site Index Maps. Start Term Availability. Fall Apply Now. International Students Apply Here. Overview Propel your intrigue for aviation into a career.
Mechanics of Aircraft Structures
Function well both individually and in a team environment. Possess strong problem-solving and analytical skills. Are able to effectively handle physically demanding situations. Have an appreciation for precise and accurate work. Are mechanically inclined. Match my Career Interests Career Coach. Level: 01 Code. Safety and Human Factors Possessing the ability to identify and action potential safety issues is paramount in the aviation industry to ensure safety for all.
Piston Engines and Propellers I Light aircraft utilize a variety of engines and propellers. Sheet Metal and Aircraft Structures Knowledge of materials and structures used in aircraft manufacturing is key to maintaining modern aircraft. Tools, Materials, and Processes I Proper use and safety of tools in the aircraft industry are paramount. Theory of Flight Knowledge of the principles of flight is essential to safety. Aircraft Publications Documentation and publications are an essential part of the regulatory environment of the aviation industry.
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Aircraft Applied Mathematics Much of the daily work of an aircraft maintenance engineer relies on the successful application of mathematical principles. Electrical Fundamentals Possessing a fundamental working knowledge of electricity is a required skill in aircraft maintenance.
Damage Tolerance Philosophy for Bonded Aircraft Structures | SpringerLink
Avionics I Knowledge of avionics systems is foundational to maintaining and troubleshooting aircraft. Communications I Communication remains an essential skill sought by employers, regardless of discipline or field of study.
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Level: 02 Code. Turbine Engines I Large aircraft utilize a variety of turbine engine propulsion systems. Aircraft Hydraulics and Landing Gear Hydraulics systems are commonly used in aircraft. Canadian Aviation Regulations Aviation is a highly regulated industry where written and oral workplace communication is critical.
Hangar Maintenance Procedures Aircraft hangars are a secure, hazard-rich environment where safety and procedures are critical. Airframe Systems Complex aircraft systems require in-depth knowledge of maintenance and interdependencies. Power Generation and Distribution Maintenance tasks involving aircraft electrical power generation and distribution systems are not without their challenges and hazards. Aircraft Instruments Modern aircraft employ complex instrumentation systems to provide pilots feedback on systems operations.
Piston Engines II Many light aircraft use piston engines as a means of propulsion. Healthy Lifestyle Are you eating healthy foods? Level: 03 Code. Avionics II Inflight communications and autoflight systems are critical to aircraft operations. Materials and Processes II Modern aircraft employ a variety of materials in their construction and design.
Rotary Wing Controls The aviation industry in Canada is highly dependent on rotary wing aircraft. Maintenance Procedures I Aircraft maintenance organizations follow standard operating procedures approved by Transport Canada. Turbine Engines II Turbine engines consist of a variety of types including turboprop, turbojet and turbofan. Communications II Clarity, concision and comprehensibility are fundamental features of workplace communication.
Choose one from equivalencies: Code. General Education Elective Students choose one course, from a group of general education electives, which meets one of the following four theme requirements: Arts in S Level: 04 Code. Propellers The design and construction of aircraft propellers varies based on the aircraft.
Aircraft Inspection Conducting scheduled inspections to identify potential airworthiness issues is standard practice in aviation. M1 and M2 Aircraft System Maintenance Aircraft incorporate a variety of environmental, mechanical and safety systems in the design. Maintenance Procedures II Performance of tasks with a high level of proficiency and attention to detail is required in the aviation industry.
General Education Elective Students choose one course, from a group of general education electives, which meets one of the following five theme requirements: Arts in S Students explore the history and development of piston engines and propellers and learn about engine components and accessories, types of piston engines, associated engine theory, engine ignition systems and operation fundamentals.
Students examine basic propeller theory, classification and nomenclature and propeller applications. In practical activities, students identify major engine components, engine lubrication systems and engine characteristics, as well as combustion and valve timing components. Students develop a solid background in the tools and equipment required to maintain aircraft, the materials that are used in the construction and repair of aircraft, and the processes that are used to repair and maintain aircraft and related aeronautical products.
AIR Electrical Fundamentals Possessing a fundamental working knowledge of electricity is a required skill in aircraft maintenance. Students develop a working knowledge of electrical formulas, components and circuits. Focus is on the enhancement of electrical skills and knowledge required for aircraft maintenance. Students study the history and development, as well as the types and basic science of turbine engines. Through lectures, videos, textbooks, handouts, and practice, students examine propulsion principles, construction and design, internal air systems, and engine components and accessories.
Students also explore concepts related to turbine fuel, system components, auxiliary power units, ignition, engine indicating systems and instrumentation associated with turbine engines. AIR Hangar Maintenance Procedures Aircraft hangars are a secure, hazard-rich environment where safety and procedures are critical. Students experience the workplace environment of an aviation maintenance engineer first hand. Onsite, students examine the hangar environment and work individually and collaboratively to complete basic aircraft maintenance tasks.
Through project-based activities, students cultivate the skills and knowledge required to complete a variety of aircraft maintenance tasks. Students practise hands-on hangar operations, completing various mandatory performance objectives relating to the approved program curriculum. Through the completion of various maintenance projects, students gain skills and knowledge to complete maintenance performance objectives.
Sorry - at the moment we can't seem to find a description for that course, try looking on the General Education website. ENLT Communications I Communication remains an essential skill sought by employers, regardless of discipline or field of study. Using a practical, vocation-oriented approach, students focus on meeting the requirements of effective communication. Through a combination of lectures, exercises, and independent learning, students practice writing, speaking, reading, listening, locating and documenting information and using technology to communicate professionally.
Students develop and strengthen communication skills that contribute to success in both educational and workplace environments.