Why do planes rev up when landing?

Thrust reverser systems are featured on many jet aircraft to help slow down just after touch-down, reducing wear on the brakes and enabling shorter landing distances. Such devices affect the aircraft significantly and are considered important for safe operations by airlines.



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A: As a jet descends toward the runway, the pilot increases the power to maintain a specific descent rate (usually around 700 feet per minute). Jet engines require time to accelerate, so the increase in thrust (known as spooling up) improves the ability to go around should it be necessary.

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The bumps you experience during take off, landing and while clearing clouds is a caused by either of the two turbulence types. Add to that the speed of the airplane cutting through dense air at lower altitudes, and some bumps are expected as well as entirely normal.

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Gravity and drag (air resistance, which is friction caused by air rubbing against the plane) try to pull the plane down and slow its speed. A plane must be built so that lift and thrust are stronger than the pull of gravity and drag by just the right amount. Lift from the wings is used to overcome the force of gravity.

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Severe turbulence can cause a plane to drop so suddenly that pilots temporarily lose control. But, again, that's not enough to crash the plane. That's not to say it's never happened. In 1966, human error and turbulence combined to bring a plane down over Mount Fuji.

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Turbulence from Convection Currents and Obstructions. Convection currents cause the bumpiness experienced by pilots flying at low altitudes in warmer weather. On a low flight over varying surfaces, the pilot will encounter updrafts over pavement or barren places and downdraft over vegetation and water.

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Transferring too much weight onto the nosewheel causes a situation called wheelbarrowing, which can lead to a loss of directional control, prop strike, or nose gear collapse. On top of those problems, with little to no weight on your main landing gear, you have little braking action.

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You are scared of all those “what ifs” which we encounter when we are nervous. There is more risk in a take-off than landing. The aircraft is heavy with fuel & has no speed or altitude, whereas, in landing the aircraft is light, has tons of speed & is already flying.

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Turbulence, which causes planes to suddenly jolt while in flight, is considered a fairly normal occurrence and nothing to fear. The movement is caused by atmospheric pressure, jet streams, air around mountains, cold or warm weather fronts, or thunderstorms, according to The Federal Aviation Administration.

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Typically in the case of an emergency landing, the plane will be landing somewhere well short of its destination. If it has not been flying long enough to burn off enough fuel to get below the maximum landing weight, they need to dump fuel in order to land safely.

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The speed at which planes take off can vary depending on the size and type of aircraft, as well as factors such as runway length, altitude, and weight. For commercial passenger jets, the takeoff speed typically ranges from around 130 to 180 miles per hour (or 210 to 290 kilometers per hour).

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On average, commercial planes cruise at about 575-600 mph (925-965 km/h, 500 to 521 knots, 0.78 to 0.81 Mach). Private jets typically cruise at around 500-600 mph (805-965 km/h, 435 to 521 knots, 0.68 to 0.81 Mach). Military aircraft can exceed 1,500 mph (2,400 km/h, 1,297 knots, 2.08 Mach).

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Autopilot is designed to cope with turbulence and will keep the aircraft close to the intended flight path without the risk of overcorrection. The recommendation is to keep autopilot ON during a turbulence encounter.

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A poll taken on A Fly Guy's Cabin Crew Lounge, the largest network of airline staff on social media, revealed that most airline crew not only like turbulence, but they also enjoy it! That's a comforting thought to think about the next time you're worried when your plane starts shaking.

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Routes with the Most Turbulence
  • New York to London.
  • Seoul to Dallas.
  • Flying into certain airports near the equator. There are certain airports which are located close to the equator which means frequent thunderstorms, especially in certain seasons. ...
  • Flying into Reno, Nevada. ...
  • London to South Africa.


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Turbulence is a sudden and sometimes violent shift in airflow. Those irregular motions in the atmosphere create air currents that can cause passengers on an airplane to experience annoying bumps during a flight, or it can be severe enough to throw an airplane out of control. (The pilots) aren't scared at all.

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Severe turbulence, he added, is “quite rare — only 0.1% of the atmosphere at 40,000 feet has severe turbulence in it, so if you're on a plane it's very unlikely that your plane will hit that 0.1%.” “However, given the number of planes in the skies, one of them will.

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Commercial jet transport aircraft come to a halt through a combination of brakes, spoilers to increase wing drag and thrust reversers on the engines.

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Every day, some 93,000 flights take off from approximately 9,000 airports. At any given time, there are between 8,000 and 13,000 airplanes in the air.

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