Aircraft Weight & Balance - AMT 114T PDF

Summary

This document provides an overview of aircraft weight and balance, including terminology, coordinate systems, and station numbers. It details various aspects essential for aircraft design and manufacturing.

Full Transcript

AMT 114T AIRCRAFT WEIGHT & BALANCE LEANING & CORROSION CONTRO WEIGHT & BALANCE TERMINOLOGY 1.Empty Weight: The weight of an aircraft without any passengers, crew, or baggage. 2.Useful Load: The total weight of passengers, crew, baggage, and fuel an aircraft can carry. 3.Maximum Gross Weight: T...

AMT 114T AIRCRAFT WEIGHT & BALANCE LEANING & CORROSION CONTRO WEIGHT & BALANCE TERMINOLOGY 1.Empty Weight: The weight of an aircraft without any passengers, crew, or baggage. 2.Useful Load: The total weight of passengers, crew, baggage, and fuel an aircraft can carry. 3.Maximum Gross Weight: The maximum total weight an aircraft can safely operate at. 4.Maximum Takeoff Weight: The maximum weight at which an aircraft can safely take off. 5.Maximum Landing Weight: The maximum weight at which an aircraft can safely land. 6.Maximum Ramp Weight: The maximum weight at which an aircraft can be towed or moved on the ground. 7.Basic Empty Weight: The empty weight plus the weight of optional equipment installed in the aircraft. WEIGHT & BALANCE TERMINOLOGY 8.Standard Empty Weight: The empty weight plus the weight of unusable fuel and full operating fluids. 9. Payload: The total weight of passengers, crew, and baggage. 10. Baggage Weight: The total weight of all baggage carried on the aircraft. 11. Fuel Weight: The total weight of fuel on board the aircraft. 12. Cargo Weight: The total weight of cargo carried on the aircraft. 13. Operating Weight: The empty weight plus the weight of crew, fuel, and oil. 14. Zero Fuel Weight: The weight of the aircraft without any fuel on board. WEIGHT & BALANCE 16. CG Envelope: The range of acceptable CG locations for an TERMINOLOGY aircraft. 17. Forward CG: A CG that is too far forward of the recommended range. 18. Aft CG: A CG that is too far aft of the recommended range. 19. CG Range: The acceptable range of CG locations for an aircraft. 20. CG Limit: The maximum or minimum allowable CG location. 21. CG Chart: A graphical representation of the CG envelope for an aircraft. 22. Weight and Balance Sheet: A document used to calculate and record the weight and balance of an aircraft. Aircraft coordinate systems -are used to define the orientation and position of an aircraft in three- dimensional space. They are crucial for navigation, flight control, and various other aspects of aircraft operation. The primary reference axes in an aircraft coordinate system are: X-axis: Longitudinal axis, running from nose to tail. Y-axis: Lateral axis, running from left wingtip to right wingtip. Z-axis: Vertical axis, running from bottom to top. These axes provide a framework for measuring angles, distances, and other geometric quantities related to the aircraft's position and orientation. Primary Reference Axes In An Aircraft Coordinate System Station numbers are a system used in aircraft design and manufacturing to precisely locate various points along the length of the fuselage. They provide a standardized reference system for engineers, technicians, and pilots. How Station Numbers Work: 1.Baseline: The starting point, or "station 0," is typically located at the nose of the aircraft. 2.Increment: Station numbers increase in increments (usually in feet or meters) as you move towards the tail. 3.Reference Points: Key components like the wings, engines, and landing gear are referenced by their station numbers. This ensures consistency and accuracy in design, construction, and maintenance. Why Station Numbers Are Important: Design and Manufacturing: They facilitate precise measurements and alignment of components during the construction process. Maintenance and Inspection: Technicians can accurately locate specific areas for maintenance, inspections, and repairs. Weight and Balance: Station numbers are essential for calculating the aircraft's center of gravity and ensuring proper weight distribution. Flight Planning: Pilots use station numbers to determine the location of fuel tanks, cargo compartments, and other critical equipment. Examples of Aircraft Station: Wing Station: The station number where the wing attaches to the fuselage. Engine Station: The station number of the engine that is mounted. Landing Gear Station: The station numbers for the front, main, and nose landing gear. By understanding station numbers, you can gain a better appreciation for the precision and complexity involved in aircraft design and operation. Wing Station Engine Station Landing Gear Station

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