The Concorde was a revolutionary supersonic passenger aircraft that flew at Mach 2.04 (approximately 2,180 km/h), enabling it to travel from London to New York in about 3.5 hours—faster than the 5-hour time difference between the cities, literally allowing passengers to arrive before they departed. This achievement required extraordinary engineering solutions: the aircraft's airframe expanded by 6-10 inches during flight due to thermal expansion from extreme heat (nose reaching 127°C), requiring special heat-tolerant aluminum alloys and white reflective paint. The engine intakes used computer-controlled ramps to slow incoming supersonic air to under 300 mph before entering the engines. Despite its technical brilliance, Concorde was retired in 2003 after 27 years because the sonic boom it created was too disruptive for overland flight, fuel costs were prohibitive, and the September 11 attacks collapsed demand for premium air travel. Only 20 Concordes were ever built, with just 14 carrying passengers, making it a unique symbol of human engineering ambition that proved the impossible could be achieved but ultimately couldn't be sustained.
Facts About the Concorde That Will Leave You Speechless追加:
There's a passenger plane that could leave London and land in New York before it ever took off. And no, >> [music] >> that's not a clever way of phrasing something. Read it again.
On paper, you could step off that jet in America an hour and a half earlier than the moment you left Europe.
>> [music] >> The clock on the wall said you arrived in the past. That plane was real. People bought tickets for it. Champagne was poured at 60,000 ft while it tore across the Atlantic at twice the speed of sound.
And then one day we just stopped flying [music] it.
Think about that.
We had the single fastest passenger aircraft in human history sitting on the runway, fully working, >> [music] >> and we walked away from it on purpose.
So, how does a plane beat the clock like that?
It all comes down to one number that still feels almost impossible to believe.
Concorde cruised at Mach 2.04. That's roughly 2,180 km/h, >> [music] >> about 1,350 mph, more than twice the speed of sound.
To put that in perspective, a modern airliner crossing the Atlantic [music] today takes around 7 or 8 hours.
Concorde did the same trip in about 3 and 1/2. London to New York in less time than some people spend commuting to work in a week. And here's the part that genuinely [music] breaks people's brains the first time they hear it.
Because New York sits five time zones behind London, and because Concorde [music] crossed that distance faster than the time difference itself, the local clock at your destination could actually read earlier than your departure time. You would land before you left. [music] A passenger could take off from London in the early evening and walk into the New York afternoon.
It's the closest thing to time travel that a commercial airline ticket has ever bought anyone, and it happened thousands of times.
It's honestly hard to even picture how fast Mach 2 is until you frame it in human terms. At cruise, Concorde was covering roughly a kilometer every second and a half.
In the time it takes you to read this sentence out loud, it would have crossed a small town.
It moved faster than a rifle bullet leaving the barrel of many firearms.
>> [music] >> If you fired a starting pistol at one end of a long runway, Concord at full cruise would already be most of the way down it before the sound of the shot even reached the other end. And it did all [music] of this not for a few seconds in a dramatic test, but for hours at a stretch steadily with a hundred people inside calmly finishing their lunch. That combination, [music] extreme almost violent speed wrapped inside total everyday calm, is the thing that really sets Concord apart from every other flying machine in history. [music] But raw speed is only half of the story.
Because the second you ask how it flew that fast, a much harder question shows up right behind it.
How do you even build something that flies at Mach 2 without [music] it tearing itself apart in the sky? This is where Concord stops being just a fast plane and [music] starts being a small miracle of engineering.
When you push metal through the air at twice the speed of sound, [music] friction heats the surface up dramatically. The tip of Concord's nose could reach around 127° C in cruise.
[music] Hot enough that you genuinely would not want to lay your bare hand on it.
And metal does [music] something completely predictable when it gets that hot.
It expands. So Concord literally got longer in flight.
The entire airframe stretched by several inches at full speed, somewhere in the range of 6 to 10 inches depending on the conditions, which is roughly 15 to 25 cm of extra aircraft appearing out of nowhere and then quietly vanishing again as it cooled back down on descent.
The plane you boarded in London was not quite [music] the same size as the plane that landed in New York.
It grew on the way. And there's this perfect little detail that One that I love.
As the fuselage stretched, >> [music] >> a gap would slowly open up inside the cockpit right next to the flight engineer's panel.
It got wide enough that you could slip your hand into it.
On some of the very last flights, crew members tucked their caps into that gap as a kind of farewell.
And then, >> [music] >> as the plane slowed down and the metal cooled and contracted, the gap clamped shut [music] and trapped those caps inside for for They're are in there today, sealed inside museum concords, little time capsules left behind [music] by people who knew they were flying something the world would never build again. To survive all of that heat, the engineers couldn't just reach for ordinary aircraft aluminum because standard alloys simply could not handle those temperatures.
So, they developed a special heat tolerant aluminum alloy, and then they painted the whole aircraft in a very particular, highly reflective white, chosen specifically to bounce heat away and keep the skin within safe limits.
That's the real reason almost every photo you have ever seen of Concord shows it gleaming white. [music] It wasn't a fashion decision or a branding choice, it was survival, baked right into the paint. The heat showed up in small human ways, too.
Passengers often [music] noticed that the windows beside them felt warm to the touch by the time they were at full speed, not dangerously hot, but warm enough to remind you gently that the air outside was being torn apart at twice the speed of sound just inches away. And on the ground [music] after landing, the skin of the aircraft could stay too hot to comfortably touch for a while as it slowly shed all that built-up heat from the crossing.
Crews would sometimes have to wait for parts of it to [music] cool down before handling them.
Everything about this plane, right down to the temperature of the glass under your fingertips, told you that you were somewhere no airliner had any business being. And honestly, the deeper you go into machines like this, the more you realize aviation history is absolutely packed with them.
These impossible objects we somehow willed into existence against every reason not to.
That's exactly why I keep coming back to 120 years of aviation, a premium visual guide that gathers the legendary aircraft of the last century in one place. From the Wright brothers' very first hop all the way to the Boeing 777X.
>> [music] >> If this is your kind of thing, scan the QR code on screen or tap the first link pinned in [music] the comments. It's the sort of collection you'll find yourself flipping through again and again.
>> [music] >> Anyway, back to the impossible plane because we still haven't touched the trickiest engineering problem of them all. Speed is one thing, heat is another.
But how on earth do you keep four jet engines running properly when the air is slamming into them at supersonic speed?
Here's something most people genuinely don't realize. A jet engine cannot actually swallow air that's moving faster than the speed of sound. [music] It just chokes and stalls.
So, Concorde carried one of the most ingenious tricks ever fitted to an airliner.
Inside each engine intake sat a set of moving ramps, computer-controlled surfaces that physically reshaped the incoming [music] airflow and slammed the brakes on it. Even when the plane was screaming along at 1,350 mph. The air that actually reached the face of the engines had been slowed to under 300 mph.
The engines [music] never knew they were riding on a supersonic aircraft.
That intake system was so far ahead of its time that aerospace engineers were [music] still studying and admiring it decades later. The engines themselves were genuine monsters. Four Rolls-Royce and Snecma Olympus 593 turbojets, a design whose roots actually [music] trace back to a Cold War bomber.
And to punch through the sound barrier and climb away from the runway, >> [music] >> Concorde lit afterburners, which it called reheat. That's the same raw fuel dumping technology you see throwing flame out the back of fighter jets, and it's a big part of why a Concorde takeoff was so famously, gloriously, window-rattlingly loud. People living near the airports always knew instantly when one was leaving.
Oh, and that drooping nose everybody remembers?
That wasn't a styling flourish, either.
Concorde's nose was so long and pointed for supersonic efficiency that on approach to land, the pilots literally could not see the runway over the top of it. So, the entire nose section was built to hinge downward, [music] dropping out of the way to give the crew a clear view of where they were going.
Nose up and streamlined for speed, nose drooped down for landing. [music] It gave Concorde one of the most recognizable silhouettes in all of aviation, and [music] the whole thing existed for a completely practical reason.
There's even more cleverness hidden inside.
Concorde managed its balance in a way no normal plane does. As it accelerated through the sound barrier, the point where lift acts on the wing shifts backward, >> [music] >> which would normally make the aircraft want to tip nose down. To counter that, the crew actively pumped tons of fuel between tanks in the front and rear of the aircraft, >> [music] >> deliberately shifting the plane's center of gravity in flight to keep it balanced.
The fuel wasn't just energy. It was a moving counterweight, sloshing forward and backward to keep this thing [music] flying straight at the edge of physics.
And the cockpit itself was a glimpse of the future.
Concorde was the first civil airliner in the world to fly with a fly-by-wire control system, meaning the pilot's inputs were translated through electronics rather than direct mechanical [music] cables, a technology that is completely standard on airliners today, but was genuinely revolutionary back then.
It carried a full regime autopilot and autothrottle, sophisticated enough that in theory, it could fly itself almost from the moment it left the ground to the moment it touched down.
And to haul a hot, heavy supersonic jet down to a stop on a normal runway, it [music] pioneered carbon fiber brakes.
Another idea so good that it quietly trickled down into the cars and aircraft we use now. So much of the technology you take for granted in modern flying was first proven in anger on this one strange and beautiful machine.
Even that long, pointed nose hid another clever trick.
Because flying at Mach 2 heats the surface so intensely, the windshield in front of the pilots needed protecting.
[music] So a special heat-resistant visor would rise up to shield the cockpit glass during high-speed flight, >> [music] >> and then retract down again for takeoff and landing. Up went the visor. The world outside narrowed to a slit, and the crew climbed [music] toward the edge of space behind it.
If you're enjoying this so far, do me a quick favor.
Drop a like to help the channel out, and hit subscribe so you don't miss what's coming next because the story is about to take a sharp turn. Now, before we get to how it all ended, here's a question worth sitting with.
Where did this thing even come from?
Who looks at the 1960s and decides [music] to build a plane that flies faster than a rifle bullet leaves the barrel? The answer is one of the most remarkable collaborations in engineering history.
Concorde was born from a treaty.
An actual binding agreement between Britain and France to share the staggering cost and risk of [music] building a supersonic airliner together.
And the level of cooperation that required was almost comical.
The French engineers worked in centimeters and millimeters. The British worked in feet and inches. Half of every plane was designed and built on one side of the English Channel, half on the other.
And when they finally [music] brought the French and British halves together to be joined into one aircraft, everything fit.
Two countries, two languages, two measurement systems, and the pieces lined up.
That alone is a small miracle. The prototype made its very first flight from Toulouse in France on the 2nd of March, 1969.
It went supersonic for the first time later that same year in October. And from there it climbed into a whole new category of flying machine.
In total, just 20 Concordes were ever built. And six of those were used only for testing and development, never carrying paying passengers.
This was always going to be an exclusive object. There were never going to be many of them. And there's a quietly painful story buried in that number. 20.
Because in the early optimistic days, [music] this was not supposed to be a tiny boutique fleet at all.
Airlines all around the world placed early orders. There was a real moment when it looked like Concorde might become the standard way the [music] wealthy crossed oceans, with dozens of them filling the skies.
But then, [music] reality arrived.
The oil crisis of the 1970s sent fuel prices [music] soaring, which is poison for a thirsty supersonic jet. The environmental backlash over the noise and the booms grew louder. And country after country quietly tightened the rules on where it could actually fly fast.
One by one, those hopeful orders evaporated until only the two national airlines of the very countries that built it, Britain and France, were left flying the thing at all.
A plane designed to conquer the world ended up flown by exactly two airlines, partly as a matter of national pride.
It had become all at once both a magnificent swan and an enormously expensive white elephant, depending entirely on who you asked.
And during all that testing, >> [music] >> Concorde quietly set numbers that still sound made up.
In 1973, one of the development aircraft reached [music] a sustained altitude of around 68,000 ft, the highest level flight ever recorded by a passenger aircraft, climbing to the very edge of where the sky starts turning dark.
The following year, >> [music] >> another Concorde hit a top speed of roughly Mach 2.23 in testing, faster even than the speed it would settle into for everyday service.
In normal operation, it was deliberately held back to Mach 2.04, >> [music] >> partly so the engineers could keep using that lighter, cheaper aluminum instead of having to build the whole thing out of exotic, expensive metals.
The plane was capable of more than it was ever asked to do, and the way it actually reached those altitudes was beautiful in its own right.
Concorde didn't just sit at one height like a normal jet. It used something called a cruise climb.
As it burned through its fuel and grew lighter over the course of the Atlantic crossing, it would slowly drift higher and higher through the flight because a lighter aircraft can fly more efficiently at greater altitude. [music] Air traffic controllers gave it a dedicated block of empty sky all to itself, a private corridor running roughly from 50,000 up to 60,000 ft with no other passenger traffic anywhere near it.
>> [music] >> And Concorde would gradually climb through that block as it crossed the ocean. It also got there fast. [music] It could claw its way upward at a rate that left the big subsonic jets of its day, and even many modern airliners, looking sluggish by comparison.
It didn't share the [music] sky with anything. It owned its own private slice of the stratosphere.
So, what was it actually like to be inside this thing while it did [music] all of that.
Honestly, not what most people picture.
Concorde was tiny inside. The fuselage was only about 10 ft [music] wide, three times narrower than a jumbo jet of the same era. So, the cabin was [music] snug, almost cramped, with low ceilings you could reach up and touch.
There were only around 100 seats, but up at 60,000 ft, twice as high as the planes below it, the view did something no other airliner could offer.
You were so high that you could actually see the curvature of the Earth bending away beneath [music] you, and the sky overhead turned a deep, dark, almost purple black, because you were flying at the very top [music] of the breathable atmosphere.
Passengers described it as flying along the edge of space itself, and the takeoff was an experience all its own.
When those four engines lit their afterburners and Concorde charged down the runway, the acceleration pressed you back into your seat in a way no normal airliner ever could.
A sharp, deliberate shove of raw power.
Then, once it was safely up and out over the ocean and cleared to go supersonic, the crew would relight the afterburners, and the whole cabin would feel that second surge as the plane pushed through the sound barrier.
There was a small display mounted at the front of the cabin showing the Mach number, and passengers would watch it climb, >> [music] >> tick by tick, until it crossed 2.0, twice the speed of sound, and a quiet ripple of disbelief would run through the cabin every single time.
>> [music] >> People applauded. They were watching a number that not long before had belonged purely to fighter pilots and test crews, and now they were sipping a drink as it ticked past. What's wild is how smooth it actually was once it settled into cruise.
With no other traffic flying anywhere near its altitude, and the air up there thin and stable, the ride was often glassy and calm.
The only real hint of the absurd speed was if you happened to glance down and catch an ordinary jumbo jet 20,000 ft below you appearing to crawl backward, because you were closing on it at hundreds of miles an hour faster than it could fly.
There was a real cost to all that performance for [music] the people up front, though.
The workload in the cockpit was famously intense.
One of the aircraft's most experienced pilots once summed up the challenge of flying it as essentially doing everything twice as fast and twice as high as a normal jet with twice as many things to keep track of at any given moment.
This was not a plane [music] you could fly on autopilot and daydream through.
It demanded everything its crews had, and we still haven't touched perhaps the most uncomfortable question of all.
If Concorde was this brilliant, faster, higher, more advanced than literally anything else in the sky, then why on Earth could you only fly it on a tiny handful of routes?
>> [music] >> Why wasn't every airline on the planet lining up to buy a fleet of them? The answer, strangely enough, is a sound, specifically >> [music] >> the sonic boom.
When Concorde went supersonic, it dragged a thunderclap across the ground far below it.
A boom loud enough to rattle windows and genuinely disturb entire towns underneath its path.
And that turned into a wall the plane could never get past because flying supersonic over populated land ended up effectively banned across most of the world.
Think about what that does to the whole business case. A supersonic airliner is only worth its enormous cost if it can actually use [music] its speed. And Concorde could only really stretch its legs out over the open ocean where there was nobody beneath it to complain.
The dream of supersonic travel everywhere ran straight into the simple human fact [music] that nobody wants their house shaken every single afternoon. So, in the end, only two airlines in the entire world ever flew Concorde in regular service, British Airways and Air [music] France.
Its earliest routes weren't even the famous ones. British Airways first flew it from London out toward Bahrain, while Air France ran it between Paris and Rio de Janeiro with a stop along the way.
But, it found its true home on the high-speed dash across the North Atlantic between Europe and New York.
And it became this rare, almost mythical thing. The tickets cost a small fortune.
>> [music] >> Flying Concorde wasn't really transport anymore. It was an event, a statement, the single most exclusive seat in the entire sky.
Heads of state, [music] rock stars, business titans who genuinely believed that three saved hours were worth more than almost anyone else alive. And the experience on board [music] leaned all the way into that exclusivity.
This was never about cramming in as many seats as possible.
It was about gourmet [music] meals served on real China, fine champagne poured at the edge of space, and the quiet thrill of knowing that the people in this narrow little cabin were moving faster than almost any human beings on the planet at that moment. Business leaders would fly to New York, hold their meetings, and fly home the same day, gaining a full working day out of the time difference.
Musicians chased it to be in two cities in one night.
For the people who could afford it, Concord didn't just save time.
It seemed to bend it.
There's something about that whole era that genuinely gets under my skin.
This moment in history when a single machine could be both a pure triumph of engineering and a glittering symbol of human ambition, all at the same time.
If you ever want to see that entire sweep laid [music] out properly, the eras, the icons, the machines that defined what flight even means, that's the whole heart of 120 years of aviation. It captures it era by era in high-quality imagery made for people who actually feel something when they look at these aircraft.
The QR code is right there on your screen, or you'll find the first [music] link pinned at the top of the comments.
Genuinely worth a look.
Now, back to it, because we are getting to the hard part. Which brings us to the question that everyone always repeats about Concord. Wasn't it just a giant money pit? A beautiful, glamorous failure that bled cash and never made sense?
The honest answer is more complicated than the legend.
The development program absolutely was a financial wound for the British and French governments.
>> [music] >> It cost vastly, vastly more than anyone had planned, ran years over, and the wide [music] global market they had dreamed of, where airlines everywhere would buy dozens of these planes simply never showed up.
In that sense, yes, [music] it lost truly staggering amounts of public money. But here's the twist most people don't know.
The planes themselves, once they were actually up and flying for British Airways, turned real [music] operating profits for years.
The aircraft in service was not the failure.
The fantasy of selling them by the hundreds, that was the dream that never came true.
Concorde didn't fail at being Concorde.
It failed at [music] being ordinary. And it was never meant to be ordinary.
It's worth remembering, too, that Concorde was almost a one-of-a-kind even among supersonic dreams.
The Soviet Union built its own supersonic airliner around the same time. An aircraft so similar in shape that people nicknamed it Concordski.
But it was plagued with problems, suffered a horrifying crash at an air show, >> [music] >> and its passenger career was brief and troubled.
Out of every nation on Earth that dreamed of flying people faster than sound, only Concorde truly pulled it off [music] and kept doing it year after year for decades.
It didn't just lead [music] the race.
For most of its life, it was the entire race.
So if the planes were profitable, and the engineering was decades ahead of its time, and it had no real competition left standing, then what actually killed Concorde? What finally brought the fastest airliner ever built back down to the ground for good?
For 24 years, Concorde flew with a spotless safety record. Not one single fatal accident. And then came the 25th of July in the year 2000.
Air France flight 4590, a Concorde leaving Paris bound for New York, carrying mostly German tourists who were on their [music] way to join a cruise ship across the ocean.
Here is the chain of events, and it is almost unbearably cruel in how small the very first link was.
Just minutes earlier, [music] another aircraft, a Continental DC-10, had taken off from that exact same runway.
And during its takeoff, it shed a thin strip of titanium metal onto the tarmac.
A small piece of debris lying on the runway that nobody spotted and nobody [music] cleared away in time. As Concorde thundered down that same strip of concrete to take off, one of its tires ran directly over that piece of metal and was sliced open.
A large chunk of that tire, around 4 and 1/2 kg of rubber, was hurled up against the underside of the wing at tremendous [music] speed.
And here's the detail that makes it so tragic. The debris didn't even puncture the fuel tank directly. Instead, [music] the violent impact sent a pressure shockwave through the full tank, and that internal pressure ruptured it from the inside.
Fuel began pouring out of the bottom of the wing, and almost immediately it ignited.
Now, picture the situation.
There was a Concorde just at the moment of lifting off the runway, >> [music] >> trailing an enormous sheet of flame behind it, with engines on one side losing power.
The aircraft was already going too fast to safely stop on the remaining runway, and yet too slow and too low to climb away and recover from what was happening.
It was caught in the cruelest possible window, where there was almost nothing the crew could physically do.
The plane could not gain the speed it [music] needed, and it came down onto a hotel in the town of Gonesse, just outside Paris.
All 100 passengers and all nine crew members on board were lost, along with four people on the ground.
It remains the only fatal crash in Concorde's entire 27-year history, and the timing could not possibly have been worse.
The whole fleet was grounded, and engineers went to work hardening the aircraft, adding protective liners inside the fuel tanks and developing tougher, more puncture-resistant tires.
And after those modifications, Concorde did return to the skies.
But it came back into a completely different world. The September 11th attacks struck the following [music] year, sending a shockwave through the entire airline industry, and collapsing demand for premium air travel.
At the same time, the costs of maintaining [music] an aging supersonic fleet kept climbing higher and higher, and the manufacturer that supported the aircraft eventually made the decision to stop [music] maintaining it all together. And without that ongoing support, the plane simply could not legally or practically keep flying. The math had finally caught up with the magic. So, in 2003, after 27 years in the air, both British Airways and Air France retired Concorde for good. The last commercial flight touched down in the autumn of that year. Crowds gathered along the fences at the airports. People openly cried on the tarmac as it rolled past.
Because they understood exactly what they were watching. Not just an old plane being parked in a hangar, but an entire idea about the future being quietly switched off. And the way it bowed out said everything about how people felt. The final flights weren't quiet ordinary landings. They were send-offs. Crowds packed the airport perimeters by the thousands, lining fences and rooftops just to catch one last glimpse of that unmistakable shape coming home.
Fire crews sprayed arcs of water over the taxiing aircraft in salute. People who had never flown it, who could never have afforded to, [music] still drove for hours and stood for hours just to wave goodbye. It's hard to think of another machine that strangers mourned quite like this. Not because of what it had done for them personally, but because of what it represented for all of us.
The proof that we could do the impossible if we decided to.
And then it taxied to a stop, and the engines wound down. And that was that.
The fastest passenger planes ever built rolled into museums, where they sit today, frozen at the edge of a future [music] that quietly slipped away. Quick question for you. Drop it in the comments. If Concorde somehow came back into service tomorrow, >> [music] >> would you actually pay to fly on it? And be honest with me, because the ticket would not be cheap.
Which leaves us with the question that still genuinely haunts aviation [music] fans to this day.
Could it ever come back? Are we ever going to fly faster than sound as ordinary passengers again? Or did that future leave with Concorde? Maybe it can come back. There are companies right now actively trying to build a new generation of supersonic airliners chasing that exact same dream with modern materials, smarter designs, and clever new ways to soften the sonic boom.
But the problems that grounded Concorde haven't gone anywhere and that's the sobering part. The boom is still a wall of physics. Break the sound barrier over land and you still rattle the ground beneath you, which is exactly why so much current research is obsessed with making a quiet boom that's more of a soft thump than a thunderclap.
And then there's the fuel.
Pushing an aircraft through the air at twice the speed [music] of sound burns it at a ferocious rate, which makes the economics brutal in a world that now cares deeply about emissions and efficiency. Concorde's challenge was never really whether it could be done.
It was whether it could be done in a way that made sense for the rest of the world and that question is still wide open today.
>> [music] >> But here is the strange, almost haunting truth that's hard to shake.
For more than 20 years now, ever since Concorde was retired, the fastest way for an ordinary passenger to cross the Atlantic Ocean has actually been slower than it was back in the 1970s.
Let that sit for a second.
We had the future in our hands.
We held on to it for 27 years >> [music] >> and then, deliberately, we set it back down on the ground and walked away.
That's a big part of why holding on to this history matters so much to me.
If today made you want to keep a piece of that golden age close, >> [music] >> 120 years of aviation is built for exactly that feeling.
A premium visual collection made for people who genuinely love these machines and who want one definitive reference they can return to and lose themselves in again [music] and again.
Just scan the QR code on screen or tap that first link [music] pinned in the comments. It's the kind of thing that truly earns its place on your shelf. So here is where I'll leave it with you.
Concorde was not retired because it failed. It was retired because the world around it changed faster than we were willing to keep up with. It was too expensive, [music] too loud for the land it flew over, too far ahead of its own time.
And somehow every one of those things was true at the very same moment that it was also one of the most extraordinary objects our species has ever built and flown. A machine that made the impossible into a Tuesday afternoon routine.
If this surprised you even a little, a quick like and a subscribe genuinely help more than you'd think, and they're what keeps stories like this one coming.
Because in the end, the most incredible part of the whole story isn't that we built a plane that could outrun the sun.
It's that we did it once and then quietly chose to forget. How?
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