Useful tips

Why did the Concorde have a high angle of attack?

Why did the Concorde have a high angle of attack?

It’s due to the nature of the delta wing. The high angle of sweep on the leading edge and complicated play of the vortices coming off the wing make the higher angle of attack necessary in order to reach safe landing speeds.

What angle did the Concorde land at?

To state it simply, Concorde’s AOA was higher than other passenger planes. Indeed, the supersonic aircraft would rise to a high angle of attack of about 18 degrees. Meanwhile, passenger aircraft have a take-off/landing AOA that is typically much lower – around 10 to 12 degrees.

Did Concorde fly higher than normal planes?

Concorde was the first — and still only — passenger aircraft that had turbojet engines with afterburners. Cruising at Mach 2 — or 1,350 mph — at 60,000 feet, Concorde flew five miles above and 800 mph faster than the subsonic 747s plodding across the Atlantic.

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Why the Concorde is such a badass plane?

Flying High The Concorde could dart through the clouds at speeds greater than Mach 2 (1,350 mph). Despite the jarring kah-boom that resonated as it breached the sound barrier, inside the cabin, all was serene and luxurious, even as the plane seemed to violate the rules of time and common sense.

Why did they get rid of Concorde?

Concorde was retired from service in October 2003 after British Airways and Air France blamed a downturn in demand and increasing maintenance costs.

What caused the Concorde to crash?

When the tires exploded a piece hit the underside of the aircraft, which ruptured one of the fuel cells slightly ahead of the intakes to the engines 1 and 2. The fuel, which ignited, choked out the two engines on the left side, and the Concorde crashed into a hotel in Gonesse, France just 5 km from the runway.

What makes the Concorde so fast?

Concorde was a comparatively light aircraft, with a 185-tonne MTOW compared to 333 tonnes for the Boeing 747-100. As such, its engine technology made a big difference in allowing it to ‘supercruise’ at more than twice the speed of sound.

Why was the Concorde nose down?

Why did the Concorde’s nose tilt down on approaches? The Concorde had a high angle of attack because its delta wing produced lift at low speeds. The nose was put in the lowest position when the aircraft was coming in for a landing to reduce drag and achieve the best aerodynamic efficiency.

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How did Concorde fly so high?

Many features common in early 21st century airliners were first used in Concorde. For high speed and optimization of flight: Double-delta ( ogee/ ogival) shaped wings. Rolls-Royce/ Snecma Olympus turbojet engines with reheat ( afterburners) and variable inlet ramps.

How hot did the Concorde get?

Because the Concorde moves faster than sound, the air pressure and friction (collision with air molecules) really heat up the plane. The temperature of the aircraft’s skin varies from 261 degrees Fahrenheit (127 degrees Celsius) at the nose to 196 F (91 C) at the tail. The walls of the cabin are warm to the touch.

Can the Concorde break the sound barrier?

The last flight of a Concorde in service was in 2003. Although Concorde and the Tu-144 were the first aircraft to carry commercial passengers at supersonic speeds, they were not the first or only commercial airliners to break the sound barrier.

How hard was it to land the Concorde?

Landing was rather a different matter and one had to be careful as the limit on landing was 12.5° PA. At final approach speed, on short finals, Concorde would already be at about 10.5°PA, which would increase in the flare to 11.0°PA, so there was not much room to manoeuvre.

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Why did Concorde weigh so much on take-off?

On take-off, as mentioned above, whilst her nose wheel was still on the runway, Concorde’s wing generated very little lift, which, coupled with the fact she frequently operated at or near her tyre rolling speed limit, meant that at rotation nearly all of the aircraft weight was still on her wheels and tyres.

What happens when you add flaps to a Concorde?

If flaps are added, the curve shifts to the left, the slope gets steeper, the stall angle gets lower and the maximum CL value increases. The concorde is basically a flying wing. It does not have a horizontal stabilizer. From the first theory, the wing when flying level would always have a moment pushing the nose down.

Why does the Concorde have a drooping nose?

Concorde’s wing also doesn’t generate much lift at low speed & low angle of attack. That’s why it needed the droop nose to allow the necessary high AoA on approach while letting the pilots see the runway. Dropping the nose gear on the runway and cutting engine power to idle was enough to reduce lift.