Chapter 6: Takeoffs and Departure Climbs Airplane Flying Handbook (FAA-H-8083-3C) Audiobook

Chapter 6: Takeoffs and Departure Climbs Airplane Flying Handbook (FAA-H-8083-3C) Audiobook New 2021
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00:00:00 Introduction
00:02:17 Prior to Takeoff
00:04:27 Normal Takeoff
00:17:28 Crosswind Takeoff
00:23:58 Ground Effect on Takeoff
00:27:41 Short-Field Takeoff and Maximum Performance Climb
00:32:36 Soft/Rough-Field Takeoff and Climb
00:36:45 Rejected Takeoff/Engine Failure
00:38:43 Noise Abatement
00:39:59 Chapter Summary

Chapter Summary.
The takeoff and initial climb are relatively short phases required for every flight and are often taken for granted, yet 1 out of 5 accidents occur during this phase and half the mishaps are the result of pilot error.
Becoming proficient in and applying the techniques and principles discussed in this chapter help pilots reduce their susceptibility to becoming a mishap statistic.

Introduction.
About twenty percent of all yearly general aviation (GA) accidents occur during takeoff and departure climbs, and more than half of those accidents are the result of some sort of failure of the pilot.
A significant number of takeoff accidents are the result of loss of control of the airplane.
When compared to the entire profile of a normal flight, this phase of a flight is relatively short, but the pilot workload is intense.
This chapter discusses takeoffs and departure climbs in airplanes under normal conditions and under conditions that require maximum performance.
Though it may seem relatively simple, the takeoff often presents the most hazards of any part of a flight.
The importance of thorough knowledge of procedures and techniques coupled with proficiency in performance cannot be overemphasized.
The discussion in this chapter is centered on airplanes with tricycle landing gear (nose-wheel).
Procedures for conventional gear airplanes (tail-wheel) are discussed in Chapter 14: Transition to Tailwheel Airplanes.
The manufacturer’s recommended procedures pertaining to airplane configuration, airspeeds, and other information relevant to takeoffs and departure climbs in a specific make and model airplane are contained in the Federal Aviation Administration (FAA)-approved Airplane Flight Manual and/or Pilot’s Operating Handbook (AFM/POH) for that airplane.
If any of the information in this chapter differs from the airplane manufacturer’s recommendations as contained in the AFM/POH, the airplane manufacturer’s recommendations take precedence.
Terms and Definitions Although the takeoff and climb is one continuous maneuver, it will be divided into three separate steps for purposes of explanation: 1.)
takeoff roll; 2.)
lift-off; and 3.)
initial climb after becoming airborne.
Refer to Figure 6-1 and the detail below.
Takeoff roll (ground roll) is the portion of the takeoff procedure during which the airplane is accelerated from a standstill to an airspeed that provides sufficient lift for it to become airborne.
Lift-off is when the wings are lifting the weight of the airplane off the surface.
In most airplanes, this is the result of the pilot rotating the nose up to increase the angle of attack (AOA).
The initial climb begins when the airplane leaves the surface and a climb pitch attitude has been established.
Normally, it is considered complete when the airplane has reached a safe maneuvering altitude or an en route climb has been established.
Prior to Takeoff.
Before going to the airplane, the pilot should check the POH/AFM performance charts to determine the predicted performance and decide if the airplane is capable of a safe takeoff and climb for the conditions and location.
High density altitudes reduce engine and propeller performance, increase takeoff rolls, and decrease climb performance.
A more detailed discussion of density altitude and how it affects airplane performance can be found in the Pilot’s Handbook of Aeronautical Knowledge (FAA-H-8083-25, as revised).
All run-up and pre-takeoff checklist items should be completed before taxiing onto the runway or takeoff area.
As a minimum before every takeoff, all engine instruments should be checked for proper and usual indications, and all controls should be checked for full, free, and correct movement.
The pilot should also consider available options if an engine failure occurs after takeoff.
These options include the preferred direction for any emergency turns to landing sites based on the departure path, altitude, wind conditions, and terrain.
In addition, the pilot should make certain that the approach and takeoff paths are clear of other aircraft.
At nontowered airports, pilots should announce their intentions on the common traffic advisory frequency (CTAF) assigned to that airport.
When operating from a towered airport, pilots need to contact the tower operator and receive a takeoff clearance before taxiing onto the active runway.