A&P Mechanic Institute's training will prepare and qualify students to take the FAA written, oral and practical exams leading to FAA Airframe & Powerplant Certifications.

 

Additionally, the broad scope of technology taught in the school can equip students technically and professionally for industrially related non-aviation maintenance fields.

 

Students must successfully complete all A&P Mechanic Institute courses in a program to receive an A&P Mechanic Institutes Completion Certificate which will be accepted by the FAA as qualification to take the FAA written, oral and practical exams leading to FAA Airframe Certification.

 

Our AMT curriculum consists of 1800 contact hours in 3 programs (General 360 hours, Airframe 720 hours, and Powerplant 720 hours) subdivided into 40 FAA approved courses taught and measured according to 14 CFR § 147. When students satisfactorily complete these curricula and courses, they receive an International AeroTech Academy Completion Certificate.

​

Total AMT Program Duration

 

General:

• Total Contact Hours: 360

  • Lecture: 174 hours

  • Lab: 186 hours

• Duration: The day program duration is approximately 3 months. The night program duration is approximately 4.5 months.

Airframe:

• Total Contact Hours: 720

  • Lecture: 234 hours

  • Lab: 486 hours

• Duration: This program is divided into 2 parts, AFM 1 and AFM2. The day program’s duration for AFM 1 is approximately 3 months and the duration for AFM2 is approximately 3 months. Total duration for the day AFM program is approximately 6 months. The night program duration for AFM 1 is approximately 4.5 months and the duration for AFM2 is approximately 4.5 months. Total duration for the night AFM program is approximately 9 months.

Powerplant:

• Total Contact Hours: 720

  • Lecture: 240 hours

  • Lab: 480 hours

• Duration: This program is divided into 2 parts, PPT 1 and PPT 2. The day program duration for PPT 1 is approximately 3 months and the duration for PPT 2 is approximately 3 months. Total duration for the day PPT program is approximately 6 months. The night program duration for PPT 1 is approximately 4.5 months and the duration for PPT 2 is approximately 4.5 months. Total duration for the night PPT program is approximately 9 months.

Total Program Duration:

Total Hours: 1800

Day program total duration: 15 Months

Night program total duration: 23 Months

 

General Program Curriculum Overview

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The Aviation Maintenance General (AMG) curriculum is designed to provide students with foundational knowledge and practical skills required for aircraft maintenance. This program covers critical areas such as mathematics, physics, aircraft systems, maintenance practices, regulations, and human factors. The curriculum includes a combination of theoretical lectures and hands-on laboratory work, ensuring students are well-prepared for industry certifications and practical applications. The total program comprises 324 contact hours, with 150 hours of lecture and 174 hours of lab work, culminating in a review and examination.

Program Objectives

• Develop proficiency in fundamental aviation maintenance concepts, including mathematics, physics, and electronics.

• Equip students with skills to interpret aircraft drawings, perform inspections, and apply maintenance procedures.

• Ensure understanding of regulatory requirements, safety protocols, and human factors in aviation maintenance.

• Prepare students for successful completion of the General Review and Exam (AMG-RE).

Course Structure

The curriculum consists of 13 courses, each with designated lecture and lab hours. The courses are sequenced to build foundational knowledge before progressing to specialized topics. Below is the detailed course list with descriptions, objectives, and contact hours.

Each course within the General program is identified with the prefix AMG such as AMG101 and will be assigned a 3-digit identifier that begins with the number 1.

Course Descriptions and Details

AMG101: Mathematics

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Introduces mathematical concepts critical to aviation maintenance, including algebra, geometry, and trigonometry. Emphasis is on practical applications in measurements, calculations, and problem-solving for aircraft systems.
Learning Objectives:

• Apply algebraic and trigonometric principles to solve aviation-related problems.

• Perform accurate measurements and calculations for maintenance tasks.

• Use mathematical tools to analyze aircraft system performance.

AMG102: Physics for Aviation

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Covers fundamental physics principles relevant to aviation, such as mechanics, thermodynamics, and fluid dynamics. Lab work reinforces theoretical concepts through experiments.
Learning Objectives:

• Understand the principles of force, motion, and energy in aircraft operations.

• Apply physics concepts to analyze aircraft performance and systems.

• Conduct experiments to demonstrate physical principles in aviation contexts.

AMG103: Aircraft Drawings

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Focuses on interpreting and creating aircraft technical drawings, including blueprints, schematics, and diagrams. Emphasizes standard symbols and conventions.
Learning Objectives:

• Read and interpret aircraft technical drawings accurately.

• Create basic aircraft schematics following industry standards.

• Apply drawing knowledge to maintenance and repair tasks.

AMG104: Fundamentals of Electricity and Electronics

Contact Hours: 72 (24 Lecture, 48 Lab)
Description: Provides a comprehensive study of electrical and electronic systems in aircraft, including circuits, wiring, and troubleshooting. Extensive lab work develops practical skills.
Learning Objectives:

• Understand electrical principles and circuit theory.

• Troubleshoot and repair aircraft electrical systems.

• Apply safety protocols in working with electronic components.

AMG105: Aircraft Material Hardware and Processes

Contact Hours: 36 (12 Lecture, 24 Lab)
Description: Explores materials used in aircraft construction, including hardware, fasteners, and manufacturing processes. Lab work includes hands-on practice with materials.
Learning Objectives:

• Identify and select appropriate materials and hardware for aircraft maintenance.

• Understand manufacturing and repair processes for aircraft components.

• Perform material handling and installation tasks safely.

​

AMG106: Cleaning and Corrosion Control

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Covers techniques for cleaning aircraft and preventing corrosion. Includes identification of corrosion types and application of protective coatings.
Learning Objectives:

• Implement proper cleaning procedures for aircraft surfaces.

• Identify and treat corrosion on aircraft components.

• Apply corrosion prevention techniques according to industry standards.

AMG107: Fluid Lines and Fittings

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Focuses on the installation, maintenance, and inspection of fluid lines and fittings in aircraft hydraulic and fuel systems.
Learning Objectives:

• Install and inspect fluid lines and fittings per regulatory standards.

• Identify and troubleshoot issues in hydraulic and fuel systems.

• Ensure leak-free connections in aircraft fluid systems.

AMG108: Inspection Concepts and Techniques

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Introduces inspection methods for aircraft maintenance, including visual, non-destructive testing, and documentation procedures.
Learning Objectives:

• Conduct thorough visual and non-destructive inspections.

• Document inspection findings accurately.

• Apply inspection standards to ensure airworthiness.

AMG109: Regulations, Maintenance Forms, Records, and Publications

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Covers aviation regulations, maintenance documentation, and use of technical publications. Emphasizes compliance with FAA and other regulatory standards.
Learning Objectives:

• Understand and apply aviation regulatory requirements.

• Complete maintenance forms and records accurately.

• Utilize technical publications for maintenance tasks.

​

AMG110: Weight and Balance

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Teaches principles of aircraft weight and balance, including calculations and adjustments to ensure safe operation.
Learning Objectives:

• Perform weight and balance calculations for aircraft.

• Adjust aircraft loading to maintain balance and stability.

• Document weight and balance data accurately.

AMG111: Ground Operations and Servicing

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Covers ground handling, servicing, and safety procedures for aircraft operations, including towing, fueling, and pre-flight checks.
Learning Objectives:

• Execute safe ground handling and servicing procedures.

• Perform pre-flight and post-flight servicing tasks.

• Ensure compliance with ground operation safety protocols.

AMG112: Human Factors

Contact Hours: 12 (6 Lecture, 6 Lab)
Description: Examines human factors affecting aviation maintenance, including error prevention, teamwork, and situational awareness.
Learning Objectives:

• Recognize human factors that impact maintenance safety.

• Apply strategies to minimize errors in maintenance tasks.

• Foster effective communication and teamwork in maintenance operations.

AMG-RE: General Review and Exam

Contact Hours: 24 (24 Lecture, 0 Lab)
Description: Provides a comprehensive review of all AMG courses, preparing students for the final examination. Focuses on reinforcing key concepts and addressing knowledge gaps.
Learning Objectives:

• Synthesize knowledge from all AMG courses.

• Demonstrate mastery of aviation maintenance concepts.

• Successfully complete the program’s final examination.

 

 

Program Summary

• Total Contact Hours: 360

  • Lecture: 174 hours

  • Lab: 186 hours

• Duration: The day program duration is approximately 3 months. The night program duration is approximately 4.5 months.

• Prerequisites: Successful completion of the APMI ICAO Level 4 Technical Reading Assessment for Aircraft Mechanics at the 10th grade level and successful completion of the APMI Technical Mathematics Exam for Aircraft Mechanics at the 10th grade level.

• Assessment: Each course includes assessments (quizzes, practical evaluations, or projects), with a final comprehensive exam in AMG-RE.

​

Airframe Program Curriculum Overview

​

The Airframe (AMA) curriculum is designed to provide students with comprehensive knowledge and hands-on skills in aircraft airframe systems and maintenance. This program covers metallic and non-metallic structures, flight controls, rotorcraft fundamentals, electrical and instrument systems, and specialized systems such as fuel, environmental, and landing gear. The curriculum includes 680 contact hours, with 182 hours of lecture and 498 hours of lab work, concluding with a review and examination. It prepares students for airframe maintenance certifications, such as those required under FAA Part 147.

Program Objectives

• Develop expertise in airframe construction, maintenance, and repair techniques.

• Equip students with skills to troubleshoot and maintain complex aircraft systems, including electrical, hydraulic, and environmental systems.

• Ensure proficiency in regulatory compliance and airframe inspection standards.

• Prepare students for the Airframe Review and Exam (AMA-RE).

Course Structure

The curriculum comprises 16 courses, each with designated lecture and lab hours. The courses are sequenced to progress from foundational structural knowledge to specialized systems and inspections. Below is the detailed course list with descriptions, objectives, and contact hours.

Each course within the Airframe program is identified with the prefix AMA such as AMA201.1 and will be assigned a 3-digit identifier that begins with the number 2. For scheduling purposes, the Airframe program is divided into Airframe 1 and Airframe 2. The courses embedded within Airframe 1 have a .1 identifier appended to the course identifier such as AMA201.1 and the courses embedded within Airframe 2 have a .2 identifier appended to the course identifier such as AMA207.2

Course Descriptions and Details

AMA201.1: Metallic Structures

Contact Hours: 84 (24 Lecture, 60 Lab)
Description: Covers the design, construction, and repair of metallic aircraft structures, including sheet metal, riveting, and welding techniques. Extensive lab work focuses on practical applications.
Learning Objectives:

• Understand the properties and applications of metallic materials in aircraft.

• Perform sheet metal repairs and riveting per industry standards.

• Apply welding techniques for aircraft structural repairs.

 

 

AMA202.1: Non-Metallic Structures

Contact Hours: 84 (24 Lecture, 60 Lab)
Description: Explores non-metallic materials, such as composites and wood, used in aircraft construction. Lab work emphasizes repair and fabrication techniques.
Learning Objectives:

• Identify and work with composite and other non-metallic materials.

• Perform repairs on non-metallic aircraft structures.

• Apply bonding and finishing techniques for non-metallic components.

AMA203.1: Flight Controls

Contact Hours: 48 (12 Lecture, 36 Lab)
Description: Focuses on the design, operation, and maintenance of aircraft flight control systems, including primary and secondary controls.
Learning Objectives:

• Understand the function and rigging of flight control systems.

• Perform maintenance and adjustments on control surfaces.

• Troubleshoot flight control system issues.

AMA204.1: Rotorcraft Fundamentals

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Introduces the principles of rotorcraft design, operation, and maintenance, including rotor systems and their components.
Learning Objectives:

• Understand rotorcraft aerodynamics and systems.

• Perform basic maintenance on rotorcraft components.

• Identify common rotorcraft maintenance issues.

AMA205.1: Communication and Navigation Systems

Contact Hours: 36 (24 Lecture, 12 Lab)
Description: Covers the principles, installation, and maintenance of aircraft communication and navigation systems, including radios and GPS.
Learning Objectives:

• Install and test communication and navigation equipment.

• Troubleshoot system malfunctions.

• Ensure compliance with regulatory standards for avionics.

 

 

AMA206.1: Water and Waste Systems

Contact Hours: 12 (6 Lecture, 6 Lab)
Description: Introduces the maintenance and operation of aircraft water and waste systems, including potable water and lavatory systems.
Learning Objectives:

• Maintain and inspect water and waste system components.

• Troubleshoot issues in water and waste systems.

• Ensure hygiene and regulatory compliance in system maintenance.

AMA207.1: Airframe Inspection

Contact Hours: 48 (12 Lecture, 36 Lab)
Description: Teaches advanced inspection techniques for airframe systems, including non-destructive testing and regulatory compliance.
Learning Objectives:

• Conduct thorough airframe inspections using various techniques.

• Document inspection findings accurately.

• Ensure airframe compliance with airworthiness standards.

AMA208.2: Aircraft Electrical Systems

Contact Hours: 48 (12 Lecture, 36 Lab)
Description: Covers the installation, maintenance, and troubleshooting of aircraft electrical systems, including wiring, power distribution, and lighting.
Learning Objectives:

• Install and repair aircraft electrical systems.

• Troubleshoot electrical faults using diagnostic tools.

• Apply safety protocols for electrical maintenance.

AMA209.2: Aircraft Instrument Systems

Contact Hours: 36 (12 Lecture, 24 Lab)
Description: Examines aircraft instrument systems, including flight, engine, and navigation instruments. Lab work focuses on installation and calibration.
Learning Objectives:

• Understand the operation of aircraft instrument systems.

• Install and calibrate flight and engine instruments.

• Troubleshoot instrument system malfunctions.

 

 

AMA210.2: Aircraft Fuel Systems

Contact Hours: 48 (24 Lecture, 24 Lab)
Description: Focuses on the design, maintenance, and inspection of aircraft fuel systems, including tanks, pumps, and lines.
Learning Objectives:

• Understand aircraft fuel system components and operation.

• Perform maintenance and inspections on fuel systems.

• Ensure fuel system integrity and safety.

AMA211.2: Ice and Rain Control Systems

Contact Hours: 12 (6 Lecture, 6 Lab)
Description: Explores systems for managing ice and rain on aircraft, including de-icing and anti-icing systems.
Learning Objectives:

• Understand the operation of ice and rain control systems.

• Perform maintenance on de-icing and anti-icing equipment.

• Ensure proper function of ice protection systems.

AMA212.2: Airframe Fire Protection Systems

Contact Hours: 12 (6 Lecture, 6 Lab)
Description: Covers the design and maintenance of fire detection and suppression systems in aircraft airframes.
Learning Objectives:

• Understand fire detection and suppression system components.

• Perform maintenance and testing of fire protection systems.

• Ensure compliance with fire safety regulations.

AMA213.2: Environmental Systems

Contact Hours: 60 (12 Lecture, 48 Lab)
Description: Covers aircraft environmental control systems, including heating, cooling, and pressurization systems.
Learning Objectives:

• Understand the operation of environmental control systems.

• Perform maintenance and troubleshooting on HVAC and pressurization systems.

• Ensure passenger and crew comfort through system maintenance.

 

 

 

AMA214.2: Hydraulic and Pneumatic Systems

Contact Hours: 60 (12 Lecture, 48 Lab)
Description: Focuses on the maintenance and repair of hydraulic and pneumatic systems used in aircraft for actuation and control.
Learning Objectives:

• Understand the principles of hydraulic and pneumatic systems.

• Perform maintenance and troubleshooting on system components.

• Ensure system reliability and safety.

AMA215.2: Landing Gear Systems

Contact Hours: 60 (12 Lecture, 48 Lab)
Description: Covers the design, maintenance, and inspection of aircraft landing gear systems, including wheels, brakes, and retraction mechanisms.
Learning Objectives:

• Perform maintenance and inspections on landing gear components.

• Troubleshoot landing gear system issues.

• Ensure safe operation of landing gear systems.

AMA-RE: Airframe Review and Exam

Contact Hours: 24 (24 Lecture, 0 Lab)
Description: Provides a comprehensive review of all AMA courses, preparing students for the final airframe examination. Focuses on reinforcing key concepts and addressing knowledge gaps.
Learning Objectives:

• Synthesize knowledge from all AMA courses.

• Demonstrate mastery of airframe maintenance concepts.

• Successfully complete the program’s final examination.

Program Summary

• Total Contact Hours: 720

  • Lecture: 234 hours

  • Lab: 486 hours

• Duration: This program is divided into 2 parts, AFM 1 and AFM2. The day program duration for AFM 1 is approximately 3 months and the duration for AFM2 is approximately 3months. Total duration for the day AFM program is approximately 6 months. The night program duration for AFM 1 is approximately 4.5 months and the duration for AFM2 is approximately 4.5 months. Total duration for the night AFM program is approximately 9 months.

• Prerequisites: Completion of a General Aviation Maintenance program (e.g., AMG curriculum) or FAA Powerplant Mechanic certification is required.

• Assessment: Each course includes assessments (quizzes, practical evaluations, or projects), with a final comprehensive exam in AMA-RE.

​

 

Powerplant Program Curriculum Overview

​

The Powerplant (AMP) curriculum is designed to equip students with the knowledge and hands-on skills required for the maintenance, inspection, and repair of aircraft powerplant systems, including reciprocating and turbine engines, propellers, and associated systems. The program comprises 636 contact hours, with 174 hours of lecture and 462 hours of lab work, concluding with a comprehensive review and examination. It prepares students for powerplant maintenance certifications, such as those required under FAA Part 147.

Program Objectives

• Develop expertise in the operation, maintenance, and repair of aircraft engines and related systems.

• Equip students with skills to troubleshoot and maintain engine systems, including electrical, fuel, and lubrication systems.

• Ensure proficiency in regulatory compliance and engine inspection standards.

• Prepare students for the Powerplant Review and Exam (AMP-RE).

Course Structure

The curriculum consists of 14 courses, each with designated lecture and lab hours. The courses are sequenced to progress from core engine knowledge to specialized systems and inspections. Below is the detailed course list with descriptions, objectives, and contact hours.

Each course within the Powerplant program is identified with the prefix AMP such as AMP301.1 and will be assigned a 3-digit identifier that begins with the number 3. For scheduling purposes, the Powerplant program is divided into Powerplant 1 and Powerplant 2. The courses embedded within Powerplant 1 have a .1 identifier appended to the course identifier such as AMP301.1 and the courses embedded within Powerplant 2 have a .2 identifier appended to the course identifier such as AMP307.2

 

Course Descriptions and Details

AMP301.1: Reciprocating Engines

Contact Hours: 108 (36 Lecture, 72 Lab)
Description: Covers the design, operation, maintenance, and overhaul of reciprocating engines used in aircraft. Extensive lab work focuses on disassembly, inspection, and reassembly.
Learning Objectives:

• Understand the principles and operation of reciprocating engines.

• Perform maintenance and overhaul procedures on reciprocating engines.

• Troubleshoot and repair reciprocating engine components.

 

AMP302.1: Engine Inspection

Contact Hours: 84 (12 Lecture, 72 Lab)
Description: Focuses on inspection techniques for aircraft engines, including visual, non-destructive testing, and documentation per regulatory standards.
Learning Objectives:

• Conduct thorough engine inspections using various techniques.

• Document inspection findings accurately and in compliance with regulations.

• Ensure engine airworthiness through proper inspection procedures.

AMP303.1: Engine Electrical Systems

Contact Hours: 48 (24 Lecture, 24 Lab)
Description: Explores the installation, maintenance, and troubleshooting of electrical systems specific to aircraft engines, including starters and generators.
Learning Objectives:

• Install and maintain engine electrical system components.

• Troubleshoot electrical faults in engine systems.

• Apply safety protocols for engine electrical maintenance.

AMP304.1: Turbine Engines

Contact Hours: 48 (24 Lecture, 24 Lab)
Description: Covers the design, operation, and maintenance of turbine engines, including turbojets, turbofans, and turboprops. Lab work includes component inspection and repair.
Learning Objectives:

• Understand the principles and operation of turbine engines.

• Perform maintenance and inspections on turbine engine components.

• Troubleshoot turbine engine malfunctions.

AMP305.1: Engine Fire Protection Systems

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Examines fire detection and suppression systems for aircraft engines, including maintenance and testing procedures.
Learning Objectives:

• Understand the operation of engine fire protection systems.

• Perform maintenance and testing of fire detection and suppression components.

• Ensure compliance with fire safety regulations.

 

AMP306.1: Turbine Engine Air Systems

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Covers air systems in turbine engines, including bleed air, anti-icing, and cooling systems. Lab work focuses on system maintenance and inspection.
Learning Objectives:

• Understand the function of turbine engine air systems.

• Perform maintenance and inspections on air system components.

• Troubleshoot issues in turbine engine air systems.

AMP307.2: Engine Lubrication Systems

Contact Hours: 60 (12 Lecture, 48 Lab)
Description: Focuses on the design, maintenance, and troubleshooting of engine lubrication systems, including oil pumps, filters, and coolers.
Learning Objectives:

• Understand the operation of engine lubrication systems.

• Perform maintenance and inspections on lubrication system components.

• Troubleshoot and repair lubrication system issues.

AMP308.2: Reciprocating Engine Induction and Cooling Systems

Contact Hours: 36 (12 Lecture, 24 Lab)
Description: Covers the induction and cooling systems for reciprocating engines, including carburetors, fuel injection, and cooling mechanisms.
Learning Objectives:

• Understand the operation of induction and cooling systems.

• Perform maintenance and adjustments on system components.

• Troubleshoot issues in reciprocating engine induction and cooling systems.

AMP309.2: Ignition and Starting Systems

Contact Hours: 48 (12 Lecture, 36 Lab)
Description: Explores ignition and starting systems for aircraft engines, including magnetos, spark plugs, and starters. Lab work emphasizes troubleshooting and repair.
Learning Objectives:

• Understand the operation of ignition and starting systems.

• Perform maintenance and inspections on ignition and starting components.

• Troubleshoot and repair system malfunctions.

 

AMP310.2: Engine Instrument Systems

Contact Hours: 24 (12 Lecture, 12 Lab)
Description: Covers the installation, calibration, and maintenance of engine instrument systems, including gauges and sensors.
Learning Objectives:

• Understand the operation of engine instrument systems.

• Install and calibrate engine instruments.

• Troubleshoot instrument system issues.

AMP311.2: Engine Fuel and Fuel Metering Systems

Contact Hours: 48 (12 Lecture, 36 Lab)
Description: Focuses on fuel systems for aircraft engines, including fuel pumps, injectors, and carburetors, with emphasis on maintenance and calibration.
Learning Objectives:

• Understand the operation of engine fuel and metering systems.

• Perform maintenance and calibration of fuel system components.

• Troubleshoot fuel system malfunctions.

AMP312.2: Engine Exhaust and Reverser Systems

Contact Hours: 36 (12 Lecture, 24 Lab)
Description: Covers the design, maintenance, and inspection of engine exhaust and thrust reverser systems for both reciprocating and turbine engines.
Learning Objectives:

• Understand the operation of exhaust and reverser systems.

• Perform maintenance and inspections on system components.

• Ensure proper function and safety of exhaust systems.

AMP313.2: Propellers

Contact Hours: 84 (24 Lecture, 60 Lab)
Description: Explores the design, maintenance, and repair of aircraft propellers, including fixed-pitch, constant-speed, and feathering systems.
Learning Objectives:

• Understand propeller design and operation.

• Perform maintenance, balancing, and inspections on propellers.

• Troubleshoot and repair propeller system issues

 

 

AMP-RE: Powerplant Review and Exam

Contact Hours: 24 (24 Lecture, 0 Lab)
Description: Provides a comprehensive review of all AMP courses, preparing students for the final powerplant examination. Focuses on reinforcing key concepts and addressing knowledge gaps.
Learning Objectives:

• Synthesize knowledge from all AMP courses.

• Demonstrate mastery of powerplant maintenance concepts.

• Successfully complete the program’s final examination.

Program Summary

• Total Contact Hours: 720

  • Lecture: 240 hours

  • Lab: 480 hours

• Duration: This program is divided into 2 parts, PPT 1 and PPT 2. The day program duration for PPT 1 is approximately 3 months and the duration for PPT 2 is approximately 3months. Total duration for the day PPT program is approximately 6 months. The night program duration for PPT 1 is approximately 4.5 months and the duration for PPT 2 is approximately 4.5 months. Total duration for the night PPT program is approximately 9 months.

• Prerequisites: Completion of a General Aviation Maintenance program (e.g., AMG curriculum) or FAA Airframe Mechanic certification is required