Can planes stop moving in the air?

Techincally, there is only one way for the aircraft to remain hanging motionless in the air: if weight and lift cancel each other out perfectly, and at the same time thrust and drag cancel each other out too. But this is incredibly rare. To stay in the air and sustain its flight, an aircraft needs to be moving forward.



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CFIs repeat it like a mantra: An airplane can stall at any airspeed, in any pitch attitude. Your trainer's wing always stalls when it exceeds its critical angle of attack—and that can happen even if the airplane is pointed straight down and approaching VNE.

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Technically this is the so-called 'stall speed', where air passes over the wings fast enough to sustain altitude, and for small planes this can be less than 50km/h (31mph). But at such low speeds, the aircraft is easily destabilised, and could fail to leave the runway.

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There's no fixed number – each individual is unique, as is the ejection that they endure. After ejection, a pilot will be given a full medical evaluation and it is down to that medical professional to advise whether it is recommended that the pilot continues to fly or not.

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The first self-flying cargo planes will enter civil aviation, sharing the skies with piloted airplanes. Small, self-flying planes will begin carrying passengers on short, regional flights. Larger passenger jets will begin operating without a pilot on the flight.

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Flights may be canceled due to wind, precipitation, fog or low visibility, lightning, low clouds, or storms.

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Absolutely! Since stalls are an AOA (angle of attack) issue, the type of airplane doesn't matter. As Chief Pilot Daun said, “an airplane can stall at any altitude, airspeed or attitude.” So the question that comes to mind is, “how are stalls in airliners different from stalls in small airplanes?”

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When an aeroplane stalls, it is not like a car – the engine does not stop. The stall is a breakdown of the smooth airflow over the wing into a turbulent one, resulting in a decrease in lift. The lift will no longer fully support the aeroplane's weight, and the aeroplane sinks.

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The idea is to get as much altitude as possible, as close to the airport as possible. So you have a relatively steep initial climb, followed by a reduction of climb angle to cruise climb and a power reduction.

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The odds of a plane crashing are not common – at least not nowadays. A rough estimate of the probability of an airplane going down due to an emergency is about 1 in 11 million, meaning it would take us quite a few lifetimes before actually experiencing a plane crash.

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The NTSB says that despite more people flying than ever, the accident rate for commercial flights has remained the same for the last two decades, and the survivability rate is a high 95.7 percent.

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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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As the plane descends into ground effect, it may actually accelerate if the engines are producing enough thrust, since in ground effect the plane requires much less power to keep flying. Power from the engines will translate into speed, if not height.

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