How fast does a 747 go in the air?

The 747-400 bolts through the sky slightly faster than its competitors, with a speed of Mach 0.85 (652.18 mph). Introduced in 1989, its primary users are British Airways, Qantas, and Lufthansa. Popular as a long-haul aircraft, the 747-400 can fly non-stop for up to 7,670 nautical miles.



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The top speed of the Boeing 747 itself is about 570 mph, and this flight maxed out at 825 mph.

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1. Boeing 747-400 – Mach 0.92 (705.89656 mph) A Boeing 747-400 taxiing on a runway. The fastest commercial airliner in the world in regards to maximum speed is the wide-bodied, four-engine Boeing 747-400.

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A typical takeoff speed for a Boeing 747 is around 160 knots (184 mph), depending on the jet's wing flap configuration, the number of passengers aboard, and the weight of their luggage, fuel load, current weather conditions, and other factors. How Fast Do Airplanes Fly When Landing?

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The North American X-15 may be the fastest plane in the world, with speeds at 4,520 mph and Mach 5.93. It's an experimental aircraft used and powered by NASA and USAF.

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For example, with a glide ratio of 15:1, a Boeing 747-200 can glide for 150 kilometres (93 mi; 81 nmi) from a cruising altitude of 10,000 metres (33,000 ft).

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The 747's maximum takeoff weight ranges from 735,000 pounds (333 t) for the -100 to 970,000 pounds (440 t) for the -8. Its range has increased from 5,300 nautical miles (9,800 km; 6,100 mi) on the -100 to 8,000 nautical miles (15,000 km; 9,200 mi) on the -8I.

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Let's start with a look at the most famous of jets, the Boeing 747. The Boeing website states that this model, with a gas tank capacity of 63,500 gallons, may burn five gallons of jet fuel per mile of flight.

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Every aircraft will have a different ideal altitude where it operates at maximum efficiency. The optimal cruising altitude for a Boeing 747 is 35,105 feet. Each individual airplane will have a different “sweet spot” that translates to the most efficient ride for them.

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The biggest reason for flying at higher altitudes lies in fuel efficiency. The thin air creates less drag on the aircraft, which means the plane can use less fuel in order to maintain speed. Less wind resistance, more power, less effort, so to speak.

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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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A plane like a Boeing 747 uses approximately 1 gallon (about 4 liters) of fuel every second. Over the course of a 10-hour flight, it might burn 36,000 gallons (150,000 liters). The 747 burns approximately 5 gallons of fuel per mile (12 liters of fuel per kilometer).

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A Boeing 747 can endure about 35,000 pressurization cycles and flights—roughly 135,000 to 165,000 flight hours—before metal fatigue sets in. 747s are retired after approximately 27 years of service.

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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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Built in 1967 to produce the mammoth jet, it remains the world's largest manufacturing plant according to Boeing. But after five decades, customer demand for the 747 eroded as Boeing and Airbus (AIR.PA) developed more fuel efficient two-engine widebody planes.

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Speed is often measured in kilometers per hour, but also in Mach, which corresponds to the speed of sound. For reference, Mach 1 is approximately 1,230 km/h. The Blackbird, an American military aircraft, holds the title of the fastest aircraft in the world with a top speed of Mach 3.32, or 3,540 km/h.

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