06 Apr RPAS Training
Posted at 10:56h
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COURSE PROGRESSION
DESCRIPTION
RPAS training (Remotely Piloted Aircraft Systems) – Advanced operations – TP 15263
Course Content
Lessons
Status
2
Section 1: Air traffic law, rules and procedures
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Chapter 1.1: Summary
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Chapter 1.2: A pilot using a small RPAS in direct visibility must be able to
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Chapter 1.3: Aeronautics Act
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Chapter 1.4: RAC - General Provisions
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Chapter 1.5: RAC - Airfields and airports
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Chapter 1.6: RAC - General Rules for Aircraft Use and Flight (structure, classification and use of airspace)
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Chapter 1.7: RAC - General Rules for Aircraft Use and Flight (restrictions on the use of aircraft and aviation safety hazards)
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Chapter 1.8: RAC - General Rules for Aircraft Use and Flight (using an aircraft at an airfield or in its vicinity)
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Chapter 1.9: RAC - General Rules for Aircraft Use and Flight (radiocommunication)
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Chapter 1.10: RAC - Unmanned Aircraft Systems
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Chapter 1.11: RAC - Small unmanned aircraft
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Chapter 1.12: RAC - Small unmanned aircraft (general provision)
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Chapter 1.13: RAC - Small unmanned aircraft (registration of unmanned aircraft)
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Chapter 1.14: RAC – Small unmanned aircraft (general rules of use and theft)
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Chapter 1.15: RAC – Small unmanned aircraft (basic operations)
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Chapter 1.16: RAC – Small unmanned aircraft (advanced operations)
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Chapter 1.17: RAC – Small unmanned aircraft (manufacturer requirements/in-flight overhaul requirements)
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Chapter 1.18: RAC - Specialized Air Operations
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Chapter 1.19: Transportation Safety Board of Canada (TSB)
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Chapter 1.20: Air traffic services and procedures
- Chapter 1.1: Summary
- Chapter 1.2: A pilot using a small RPAS in direct visibility must be able to
- Chapter 1.3: Aeronautics Act
- Chapter 1.4: RAC - General Provisions
- Chapter 1.5: RAC - Airfields and airports
- Chapter 1.6: RAC - General Rules for Aircraft Use and Flight (structure, classification and use of airspace)
- Chapter 1.7: RAC - General Rules for Aircraft Use and Flight (restrictions on the use of aircraft and aviation safety hazards)
- Chapter 1.8: RAC - General Rules for Aircraft Use and Flight (using an aircraft at an airfield or in its vicinity)
- Chapter 1.9: RAC - General Rules for Aircraft Use and Flight (radiocommunication)
- Chapter 1.10: RAC - Unmanned Aircraft Systems
- Chapter 1.11: RAC - Small unmanned aircraft
- Chapter 1.12: RAC - Small unmanned aircraft (general provision)
- Chapter 1.13: RAC - Small unmanned aircraft (registration of unmanned aircraft)
- Chapter 1.14: RAC – Small unmanned aircraft (general rules of use and theft)
- Chapter 1.15: RAC – Small unmanned aircraft (basic operations)
- Chapter 1.16: RAC – Small unmanned aircraft (advanced operations)
- Chapter 1.17: RAC – Small unmanned aircraft (manufacturer requirements/in-flight overhaul requirements)
- Chapter 1.18: RAC - Specialized Air Operations
- Chapter 1.19: Transportation Safety Board of Canada (TSB)
- Chapter 1.20: Air traffic services and procedures
3
Section 2: SATP Cells, Engines and Systems
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Chapter 2.1: Summary
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Chapter 2.2: Cells
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Chapter 2.3: Electric circuit
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Chapter 2.4: Redundancy and critical elements
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Chapter 2.5: Ground command post
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Chapter 2.6: Data links
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Chapter 2.7: Batteries
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Chapter 2.8: Autopilots
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Chapter 2.9: Payloads
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Chapter 2.10: Electric engines (propulsion)
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Chapter 2.11: Launch and recovery systems
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Chapter 2.12: Maintenance and record-keeping
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Chapter 2.13: Magnetic compass
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Chapter 2.14: Altimeter
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Chapter 2.15: Anemometer
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Chapter 2.16: Inertial Measurement Unit (IMU)
- Chapter 2.1: Summary
- Chapter 2.2: Cells
- Chapter 2.3: Electric circuit
- Chapter 2.4: Redundancy and critical elements
- Chapter 2.5: Ground command post
- Chapter 2.6: Data links
- Chapter 2.7: Batteries
- Chapter 2.8: Autopilots
- Chapter 2.9: Payloads
- Chapter 2.10: Electric engines (propulsion)
- Chapter 2.11: Launch and recovery systems
- Chapter 2.12: Maintenance and record-keeping
- Chapter 2.13: Magnetic compass
- Chapter 2.14: Altimeter
- Chapter 2.15: Anemometer
- Chapter 2.16: Inertial Measurement Unit (IMU)
4
Section 3: Human Factors
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Chapter 3.1: Summary
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Chapter 3.2: A pilot using a small RPAS in direct visibility must be able to
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Chapter 3.3: Aeronautical Physiology
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Chapter 3.4: The pilot and the operational environment
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Chapter 3.5: Aeronautical Psychology
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Chapter 3.6: Pilot-equipment/material relationship
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Chapter 3.7: Relationships
- Chapter 3.1: Summary
- Chapter 3.2: A pilot using a small RPAS in direct visibility must be able to
- Chapter 3.3: Aeronautical Physiology
- Chapter 3.4: The pilot and the operational environment
- Chapter 3.5: Aeronautical Psychology
- Chapter 3.6: Pilot-equipment/material relationship
- Chapter 3.7: Relationships
5
Section 4: Meteorology
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Chapter 4.1: Summary
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Chapter 4.2: A pilot using a small RPAS in direct visibility must be able to
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Chapter 4.3: Earth atmosphere
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Chapter 4.4: Atmospheric pressure
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Chapter 4.5: Weather aspects of altimetry
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Chapter 4.6: Humidity
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Chapter 4.7: Stability and Instability
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Chapter 4.8: Clouds
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Chapter 4.9: Layers on the ground
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Chapter 4.10: Turbulence
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Chapter 4.11: Wind
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Chapter 4.12: Related fronts and weather
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Chapter 4.13: Aircraft icing
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Chapter 4.14: Storms
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Chapter 4.15: Weather services available to pilots
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Chapter 4.16: Newsletters Weather for aviation
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Chapter 4.17: Aviation weather forecast
- Chapter 4.1: Summary
- Chapter 4.2: A pilot using a small RPAS in direct visibility must be able to
- Chapter 4.3: Earth atmosphere
- Chapter 4.4: Atmospheric pressure
- Chapter 4.5: Weather aspects of altimetry
- Chapter 4.6: Humidity
- Chapter 4.7: Stability and Instability
- Chapter 4.8: Clouds
- Chapter 4.9: Layers on the ground
- Chapter 4.10: Turbulence
- Chapter 4.11: Wind
- Chapter 4.12: Related fronts and weather
- Chapter 4.13: Aircraft icing
- Chapter 4.14: Storms
- Chapter 4.15: Weather services available to pilots
- Chapter 4.16: Newsletters Weather for aviation
- Chapter 4.17: Aviation weather forecast
6
Section 5: Navigation
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Chapter 5.1: Summary
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Chapter 5.2: A pilot using a small RPAS in direct visibility must be able to
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Chapter 5.3: Definitions
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Chapter 5.4: Maps and charts
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Chapter 5.5: Time and longitude
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Chapter 5.6: Navigation by the pilot
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Chapter 5.7: Flight planning
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Chapter 5.9: Global Satellite Navigation System (GNSS/GPS)
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Chapter 5.8: Radio electricity theory
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Chapter 5.10: Other radio and radar aids-basic principles and use
- Chapter 5.1: Summary
- Chapter 5.2: A pilot using a small RPAS in direct visibility must be able to
- Chapter 5.3: Definitions
- Chapter 5.4: Maps and charts
- Chapter 5.5: Time and longitude
- Chapter 5.6: Navigation by the pilot
- Chapter 5.7: Flight planning
- Chapter 5.9: Global Satellite Navigation System (GNSS/GPS)
- Chapter 5.8: Radio electricity theory
- Chapter 5.10: Other radio and radar aids-basic principles and use
7
Section 6: Flight operations
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Chapter 6.1: Summary
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Chapter 6.2: A pilot using a small RPAS in direct visibility must be able to
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Chapter 6.3: General
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Chapter 6.4: Aircraft performance
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Chapter 6.5: Charts/performance data
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Chapter 6.6: Mass and Centering
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Chapter 6.7: Contamination of critical aircraft surfaces
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Chapter 6.8: Use of RPAS (VLOS) and Occupational Health and Safety
- Chapter 6.1: Summary
- Chapter 6.2: A pilot using a small RPAS in direct visibility must be able to
- Chapter 6.3: General
- Chapter 6.4: Aircraft performance
- Chapter 6.5: Charts/performance data
- Chapter 6.6: Mass and Centering
- Chapter 6.7: Contamination of critical aircraft surfaces
- Chapter 6.8: Use of RPAS (VLOS) and Occupational Health and Safety
8
Section 7: Flight theory
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Chapter 7.1: Summary
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Chapter 7.2: A pilot using a small RPAS in direct visibility must be able to
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Chapter 7.3: Flight principles
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Chapter 7.4: Aircraft parts and components
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Chapter 7.5: Forces acting on an aircraft
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Chapter 7.6: Stability
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Chapter 7.7: Aerodynamics profiles
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Chapter 7.8: Propellers and rotors
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Chapter 7.9: Wing design
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Chapter 7.10: Airplane flight controls
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Chapter 7.11: Helicopter flight controls
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Chapter 7.12: Multirotor aircraft dynamics
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Chapter 7.13: Load factor
- Chapter 7.1: Summary
- Chapter 7.2: A pilot using a small RPAS in direct visibility must be able to
- Chapter 7.3: Flight principles
- Chapter 7.4: Aircraft parts and components
- Chapter 7.5: Forces acting on an aircraft
- Chapter 7.6: Stability
- Chapter 7.7: Aerodynamics profiles
- Chapter 7.8: Propellers and rotors
- Chapter 7.9: Wing design
- Chapter 7.10: Airplane flight controls
- Chapter 7.11: Helicopter flight controls
- Chapter 7.12: Multirotor aircraft dynamics
- Chapter 7.13: Load factor