Revolutionary Breakthrough: Boeing's Transonic Wing in Partnership with NASA!

Thank you soooo much Petter sir and team🤍💙👍🏼 for bringing this one out.
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Honest to God, the other day.. when watching ruclips.net/video/Xm5LYkGHkTc/видео.html Scott Manley's video on NASA's plans.. I was literally thinking as to when Mentour team would do some new coverage on the Boom Overture or other newer research on wing designs and so.
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Very happy that you did!🙇🏻‍♂️🧡👌🏽
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Had to pause the video, just to type this.
Now back to the video.🙂

Thank you. Works great

Great video but the wing design is dumb as hell. As an airline mechanic myself, I guarantee you that no one is going to be looking for lift equipment to go up and inspect the top of that wing over and over and over, for every airplane that comes into the gate, there’s so many other service items need to be done on the plane. It’s one of the dumbest ideas I’ve seen in awhile. They should be going back to the “Boeing sonic cruiser’ idea with Hydrogen fuel cell technology driving electric motors. That’s a real winner and no wingtip problems at the gate either.

I'm surprised that nobody is developing a wing with a swing-folding mechanism for part of its length, instead of an upwards-folding one. If they are, then can you tell us about them, please, Petter? Thanks. 🙂👍

Mentour, I recall now how the general aviation prototype aircraft, Celera 500L, which claimed truly incredible performance, uses this very same wing design mounted mid-spar rather than this example. That might be worth a few minutes of discussion time. No?

Not on my browser setup. In any case there is this thing called the right arrow key that you may not be aware of ....

Easy workaround, download the video, and then watch it offline. No ads. ☺👍

@@johnsmith1474 It is on RUclips.
Kinda disappointing to have YT ads in a sponsored video, but given the quality of the content I just eat it.

@@johnsmith1474 do you have a link to a video that will explain that function to me?

Getting very sick of this new youtube and all it's guidelines, remember the dislike button number days...Rumble, more free speech.

i wouldn't bank on it

Capitalism: HAH

lol lmao

The days of the Kelly Johnsons are over. I doubt this design makes it into the tooling and production phase. Boeing is still feeling the hurt of the carbon fiber 787 Dreamliner design. Unless Airbus flies outside the box on a bread-and-butter fleet aircraft (such as the A321), Boeing has no real reason to stray outside the lines of old, but proven, technology.

@@krozareq
You might just be right. The only hope is the new CEO waiting for technology to move forward so Boeing has another 707 or 747 moment and owns the market again. The 787 though problem ridden was a turning point for the company. Nobody quit fills that slot with the A350 being larger and the closest. IMHO the 786 lead the the 777X wings being an option. Let’s hope they get leaders who aren’t going to sink the company out of fear of moving forward

He is a hero, kudos

I invented the internet

OK

So what secrets did he tell you?

Did your dad ever tell you that there’s no way you can fit thousands of pounds of fuel in both wings? Did he tell you that or did he take that to his grave that there was never gas in the wings!??

Instead of the wings folding up, which is inherently unstable, what if the wings folded forward? At speed, the air pressure would push the wings back, preventing them from folding forward.
Maybe have them fold forward and at a positive 20 degree angle, so they clear the doorway and make it easy to dock at airports.

Making room for wider airplanes would lower number of gates in airports and hence number of passengers they can handle.
And hardly any airport has lots of room to just expand to maintain old capacity.

@@tuunaes That is a good point. I was thinking that the main reason why they would _not_ want to change the gates around in airports would be the enormous cost of such an operation, but the fact that in some cases it could necessitate a reduction in the actual number of gates is definitely an issue as well.

@@tuunaes But that is also a relic of the way thing are currently. Things could be changed so that (for instance), the planes park side on to the gates are towed out sideways on some kind of dollies which would enable them to be much more densly packed and could leave the terminal without engines running. There is always a way of doing things, it just requires imagination, and yes, money

Issue Is you would have less gates, thus the economical advantage of better efficiency would be offset by less passenger capacity per airport apron

Open source doesn't have to be forced through taxes. That is a command and control style approach.
Remove regulations preventing cheap entry into the space and there will be a plethora of ideas thrown about. Most will fail but unimagined innovation will occur.
NASA and gov is a barrier, not a benefactor. The incentives are backwards. There should be no barriers or qualifications for putting aircraft in the sky so long as no one can be injured. By that I don't mean individuals. I mean the everything when it comes to injury, human life, environmental pollution, accidents, the works. It's not simple to consider but it has to be done if you dare apply for insurance with a wacky idea. Some people will be successful and some won't. It's in the relationships where the details are worked out as it should be. One size does not fit all.
It's the way everything should work. Top down approach works great for mil spec (or at least we assume it does since it's worked in the past) but outside conflicts, civvies will come up with much better ideas if left alone to try.
Compare it to the tech space and Linux. Practically the entire internet is run on a user created and modified over several generations version of the original idea. Because of it the planetary population has been able to communicate more freely and accessibly. What do you think would have happened if gov got in the way of managing how to interface software with hardware? They would have if they could have but the tech industry evolves too fast for their glacial pace to keep up.

Except the moon landing!
They *accidentally* deleted that one. wink wink*

@@miinyoo im not actually sure what youre trying to say here, but i can tell that you dont know what youre talking about on a fundamental level. "removing regulations preventing cheap entry into the space" is a direct contradiction to "there should be no barriers or qualifications for putting aircraft in the sky so long as no one can be injured."
in order to enforce the last point, the former can not happen. the point of regulation is to control those who would take flight. one of the reasons this control is necessary is safety. in order to comply with the rigorous and specific criteria necessary to take flight in any aircraft safely you need to spend money to make certain that aircraft is in fact safe.
because of this glaring contradiction in your logic I'm forced to contend with a few possibilities. the first, is that you dont recognize the contradiction. that seems unlikely. the second, is that you simply misspoke, and you dont actually want deregulation at all. which seems very unlikely considering your wording. the possibility ive chosen to believe for the time being is that you are not actually concerned with the safety of others and would rather a "move fast and break things" approach to aviation. which is obviously not an opinion anyone should have, so you have added "so long as no one can be injured" to cover for yourself. i suppose perhaps you believe the current regulations are simply uneccessary to maintain safe aviation practices, but if thats the case i feel like you should watch a lot more of this channel. the failures we see on this channel are prime examples of how perilous air flight is even with our current, extremely safe practices. deregulating would likely kill our poor host, either because he crashes his plane or dies of exhaustion trying to cover other crashes.
and the idea that "civies will come up with much better ideas if left alone to try" is the truly backwards thinking. research does not succeed -- or even happen -- without funding. if you leave the free market to decide who does research on what, the only ideas that will prosper are those that are incredibly safe investments for companies. because the ONLY non-government organizations with the funding and interest to do research on planes are companies like boeing, who are motivated by profit alone. they will never try any "wacky ideas." they will only fund research that they feel is highly likely to return their investment. which we can see happening TODAY with them waiting an entire decade before designing their next aircraft. waiting until their government subsidized research is complete before taking any further steps to minimize risk. and this subsidized research is also MUCH cheaper than you would expect for a company that makes billion dollar planes pretty much on a weekly basis.
now, imagine a world where NASA didnt work with boeing on this new design. what do you think boeing would be doing? do you think they would be doing MORE research if the US government wasnt helping them pay for it? no. less money means less research, that is common sense. and none of the small amount of research they did would be shared with the world either, further slowing the advancement of the industry as a whole.
now, i could write an entire essay on why your comparison to linux is not only a bad comparison, but is filled with similar misconceptions about how the world works and how the history of linux unfolded, but frankly I'll be surprised if you even read this far. and shocked if you took the time to both read it critically and self reflect on if anything ive said was true.

Maybe so... BUT a new "radical design" would be more FUN if it just made ONE of the wings fold straight up in the air instead... don't spoil the SHOW, man...
AND yes, before anyone gets pissy... some REALLY strange looking aircraft ideas have actually FLOWN over the years of avionic history... from the "Ass-ender" to the "Scissor-wing" and few that were completely nuts... Even the Nazis got on the wagon for weird sh*t, trying for a bomber with off-set wings... People have had weird ideas about how to make planes "better" for a LONG time.
I highly recommend "Dark Skies" for some over-views and jot down notes to deep dive technical terms and design numbers/models/series while you're trying not to laugh too hysterically. ;o)

I wonder if folding wings are heavier because of the mechanisms to fold it up like Motors and gears, hinges, cables, etc.

@@dannydaw59 a part is always heavier than no part, so yes. It obviously still makes economic sense because the tips on the 777x fold. The decrease in drag from the longer, slimmer wings must beat the costs of added weight, and by a significant amount, or it wouldn't be worth doing.

This design doesn’t allow visual inspection for damage on top of the wing, and as an airline mechanic I’m not going up on a lift over aver over again all day to inspect every airplane wing that comes to the gate, it’s dumb as fk. The rest of the plane needs maintenance servicing and no one is going to waste time looking for equipment to go up on top of every airplane. They should be going after the Boeing sonic cruiser design with Hydrogen fuel cell driving electric motors, that’s a real winner not this stupid thing.

@@tropicthndr If it comes to production levels of a "fleet" like most of Boeing's other series, you and I BOTH know there's going to be an alternative innovated over using a lift to look at the tops of the wings... There'll be a robot to send up, or a telescopic tool to test by ultrasonic frequency or something and bring you back better information for sending a tech to "waste more time" than has already been spent on wing-inspections... It might be a matter of time, but it's a "when" and not an "if". ;o)

Boeing went downhill since being taken over by McDonell Douglas. It was the MD management that was in charge of the MAX8 disaster.

Came here to comment that the idea of a new folding wing design from Boeing gives me the fear, surely they'll cut whatever corners they can to save a few bucks on design, manufacturing, maintenance etc.

@@melondoc that’s one reason why NASA will be riding shotgun - the other being using taxpayers money

@@melondoc you don't need to fly Boeing if you don't want to, no one is forcing you.

Oh no the libertarians entered the chat

That would not be possible.. the 707 didn't enter commercial service until 1959.

Yep, that’s why the 777X is being so thoroughly tested

It would earn the nickname of a kamikaze falcon, or dropping pigeon..
I always fear something like that happens, but obviously it is the biggest fear of every engineer and mechanic involved, so it does seem to happen remarkably rarely (i think, as i can't remember one instance of a foldable vehicle collapsing intantly).

@@Games_and_Music Well, they had time to practice it since the WW2 and carrier-based aircraft with folding wings.

@@TheLastPhoen1x I guess so, and even in those situations i rarely hear of failing wings, it's mostly the takeoffs and landings causing incidents.
My favorite fighter is the F-4 Phantom II, and it also had foldable wingtips, and although it wasn't quite known to be a graceful bird, but i don't remember the foldable parts specifically being a hazard.
Btw, i just imagined a massive aircraft carrier, made for passenger airlines..
Imagine how huge that ship must be, but also, how cool would be it be to have a floating airport?
Surely they must've been toying with this idea for a while.
Although, it has to really be incredibly massive, with multiple airstrips, otherwise it wouldn't make sense economically, or there'll be a lot of planes circling around it like vultures doing multiple attempts at landing and it would be a big mess.
And i don't want any more pollution in the oceans anyway, but the idea of a giant vessel is cool though.

@@Games_and_Music I believe Tokyo airport is built on a floating 'island.'

Concorde barely cruised past mach 2. That's not exactly high mach.

Well, most of 'us' never crossed the Atlantic in 3 hours because it was horribly inefficient and, thus, extremely expensive compared to the alternative. You can cross the Atlantic today in a flat-bed seat for a fraction of the cost of a seat that wasn't much more spacious than a modern domestic economy seat on the Concorde. Ever since the 747, subsonic widebodies have accounted for the vast majority of long-haul passenger air travel.

@@nameberry220 Neither is .8

@@vbscript2 I'm making a very specific conceptual point which apparently escapes you. No one is arguing that Concorde was economically attainable, feasible or sustainable.

@@nameberry220 But more than 2 times faster than any Airbus or Boeing. Which was the point you seem to have missed..

A lot of work has gone into analyzing and optimizing the wing-strut-jury connection both for design and off-design conditions. There's definitely unknowns (that's why there's a demonstrator!), but I doubt they're going to be purely aerodynamic effects of that intersection.
Can you elaborate on high gust loads being good for wing fatigue?

A lot of work was done on "prop-fans" ... with little result. I only suggested the aero effects as an "obvious" issue ... I'm sure there are many others. Airplane design is very unforgiving to new technology ... remember the Li battery issue on 787 ? now we barely think about Li batteries, 'cause we "know" the problems.
High fatigue loads are good to fatigue. A wing (unlike a fuselage) has a highly varying fatigue load spectrum. Infrequent high loads set up compression stresses at crack tips, which retard the crack growth and increase the fatigue life (well, really, the crack growth life which is more important today as it sets up the structural inspections. "What about Miner's rule ?" yeah, well, Miner's rule is a very simplistic analysis for combining different fatigue loads.@@AmbientMorality

@@russellblake9850 Right, and of course they wouldn't be building a demonstrator if they thought the technology was already ready. Just wanted to mention that that is unlikely to be a primary reason they think a demonstrator would be valuable.
Interesting on fatigue: my total background on this is a single undergraduate class, so very basic. Do you know of any keyword or name for that effect? I'm curious to learn more about how that works.

@@AmbientMorality Crack Growth Retardation. It's as feature of Damage Tolerance Analysis under spectrum loading.

@@russellblake9850 Alright, thanks! o/

Mufflers?

@@sharoncassell9358 Sort of but it worked differently. In a car muffler the exhaust gas bounces around inside the muffler in a certain way which reduces noise. In a jet engine most of the noise comes from the exhaust slamming into the outside air. Running the exhaust through pipes changed the way that the exhaust hit the air which reduced noise. Only somewhat though, the early engines were still very noisy especially at takeoff.

Old habits will be hard to kick

You are very uninformed 😭

It would be a long while before I trust my life with something unproven from the mass murderers at boeing.

Totally agree with this statement. All product quality has declined, and airliners are products.

I won’t

Well no, that is determined for accurately by MTOW of said aircraft as that determines how strong the vortices are by and large, not its wingspan.

@@w8stral There are also issues with navigating on taxiways both for conflicts between aircraft and with equipment on the ground

@@Markle2k Uh, a flat NO to that as zero difference between big and small airports in that respect other than the RARE airport modified for the a380 and this proposed craft is not even close to midsize

@@w8stral Airport reference code (ICAO Annex 14)
The intent of the reference code is to provide a simple method for interrelating the numerous specifications concerning the characteristics of aerodromes so as to provide a series of aerodrome facilities that are suitable for the aeroplanes that are intended to operate at the aerodrome. The code is not intended to be used for determining runway length or pavement strength requirements. The code is composed of two elements which are related to the aeroplane performance characteristics and dimensions. Element 1 is a number based on the aeroplane reference field length and element 2 is a letter based on the aeroplane wingspan and outer main gear wheel span.

@@w8stral Wing span of 52 m will effectively put this aircraft into E category (by wing span) which is similar to A330/787/747-400.

Imagine seeing two engines almost as big as the fuselage...🤣

@@hectoraccented5312 The engines on the 737 MAX are almost as big as fuselage.

@@glennchartrand5411 it's hanging from a low wing...., the CFM LEAP-1B on the 737MAX is 2.45m wide and 2.2m tall (16.6m2 frontal surface), the fuselage is 3.76m wide (40m2 frontal surface)

We are now seeing the limitations of fiberglass, it hates UV. AS such, all wings and bodies made of this stuff will weaken over time. Carbon fiber, fiberglass, whatever iteration you make those wings spars and fuselages out of. It has a limited lifespan.

​@@orthopraxis235 it's more so the matrix medium that hates it directly.

@@orthopraxis235 not only that, but the complete disregard taken in the search for more profit. Even if it's pennies. When we refinish these planes they're only looking at weight savings. Rarely does an issue get reported or resolved. There isn't enough protection in the form of coatings to protect these composites in an effective way because they don't want the extra weight

Indeed, we have very few gates at our airports and just bus pax to the stands.

All very good points! unfortunately, all they’ve done is talk about new designs and show concepts for the past three decades, but have only made small changes here and there. And, as we all know, the experience of flying commercial has only gotten worse. If you can afford to pay for Upgrades to business, or first class, it’s a lot better. But for the rest of us, we are just cattle :-)

Hangar space, engine maintenance, high tailplane, wake turbulence etc

Airbus has been the real crooks if you study there past.

They actually would without extensive government handouts. The exact thing they are claiming Airbus is doing. But you know how it is in America, if it's a government handout for me it's a good thing. If it's a government handout for you it's socialism.

Horse shoe votex 👍. On my urban walk tonight, cars parked up, all look the same. Its optimised. Same as diamond bike frames. Personally, I think the future is slower, more efficient per unit of energy. 👍

How if the wing is producing lift does this magically eliminate wing vortices?
Is this the next sonic cruiser? Boeing PR are great at doing these pieces which may or may not be true..

@@timempson2146 There wouldn't be wing tip vortices because there won't be wing tips. The bottom and top profiles would be one continuous piece

@@timempson2146 Why you shit talking the sonic cruiser? Nothing wrong with the concept, the project was only killed because parasite transplants from Mcdonnal Douglas used the post-9/11 market downturn to cancel it and build a slightly more fuel efficient 767 instead.

The thing is, just like torroidal propellers we're just recycling 50 year old ideas. But thats not a bad idea because this that were difficult to manufacture now could be. The tip vortex occurs because its moving fowards with high pressure on one side and low on the other so you get a swirl. So stop that and no vortex drag and therefore less drag right? It never quite works out to be worth it. Then all design is a compromise you have to put the fuel somewhere and in the wings is already optimal. So one thing gets better another gets worse. Still worth research but doubtful we'll see much change.

I share this sentiment. My first commercial flight was on a DC-9, so there is definitely some nostalgia here for me.

I wonder why they are using md-90s as opposed to 717s or md-95s

@@jatomisstevenson141 That is a good question, since the 717 is already 29 ft shorter. Maybe it is hard to find two of the ~50 which have been retired which are also in servicable condition and not parted out. Maybe they just already own the MD-90s so might as well use them, although acquiring other airplanes sounds much simpler than shortening those you already have. But maybe the length they want is longer than 717, and it is more feasible to shorten than lengthen an already-built airframe.

Airbus started out with 3 new plane types. They had already dropped the plan for the blended wing. We may see it show up as an electric plane somewhere as it would have a nice spot to put batteries near the CG. But as you know there are people problems with the blended wing.

Blended wing just does not work in any scenario other than GARGANTUAN. 130m wingspans or greater. No airport in the world could handle such an aircraft.

@@w8stral No airport in the world is going to be able to handle the other new wing concepts either. Airports are going to have to change.

@@w8stral Why are they limited to large aircraft ?

@@darthkarl99 Uh, no, they will handle them just fine.

It’s ironic that Petter was just talking about span. Wing though, not the attention kind.

So I’m not feeling great about having to point this out but you should probably be aware that Petter is biased. Honest, I think so for the most part but he’s biased. And not that I really blame him but you should know that the aircraft he flies is Boeing made, variants of the 737 ng variety. The airline he flies for only uses Boeing aircraft and its understandable that he’d feel affection toward the aircraft he flies. It happens and it’s fine but I do feel that more people should be aware of this.
Heck I’m not immune to bias myself. On a purely technical level I think Airbus has the overall better design philosophy and from working on the ground crews I definitely like the simplicity, practicality and ease of use doing anything with an Airbus over a Boeing but… I’m sort of fond of the 787-800 both because a unique set of circumstances meant that one predawn tail end of my shift led to forty minutes with my butt parked in the first officer seat with an engineer in the captain seat teaching me as much about it as my primitive little mind could absorb. And because the 787 has a vent on the belly that blows out perfectly warm air, which is perfect for helping a half frozen ramper thaw a bit in the predawn chill.

Awesome! We are trying to keep on the forefront of things here on the NOW channel 😉

It isn't a redesign issue, you can fit less gates at your airport.

love me some swing wings. But we will have to see if they can make the wing box strong enough without sacrificing passenger/cargo space and weight. To my understanding swing wings are better used for transitioning through the sound barrier, but are a little on the heavy side for light efficient aircraft which is where the industry is obviously trying to go.

@@Amehdion you're thinking of the variable geometry swing wing. I'm talking about the wwII carrier fighter design

@@kenbrown2808 ah, yeah that would be cool to see.

@@Amehdion had to look up models, and the Grumman Wildcat and the Avenger seem to be the most prominent of that type.

Tall objects are kept far away from runways. The Boeing 777 and 787 have wingspans of about 60 meters. A runway wide enough for the 737 is wide enough for a 787, even if it may not be long enough.

The constraining factor for runway space is margin of error for not flying perfectly straight (and that goes double in low visibility).
But TAXIways are another story; even major hubs have wingspan restrictions on certain taxiways.

At low speed only…..

Not if you want to look at the stars.

This will have the strut blocking some of the view, but less of it. Of course most seats will be in front of or behind the wing anyway - especially with such high aspect ratio wings. This also solves John Nunn's concern - get a seat near the front or back and the wing won't block sky or ground.

@@quillmaurer6563 😭😭😭😭😭😭, you got me 🤣😂🤣😂🤣😂🤣😂

He was a Colonel I believe .Squadron Commander of the 703rd Bomb Wing flying B24 Liberators . He flew 20 missions in combat. I picked up this information on the net so don’t know how accurate it is . What is accurate he was a Squadron Commander & Flew B24’s out of English fields. He flew B58’s in the mid to late 1950’s

The fuselage doesn’t lose much weight in flight, so you couldn’t really decrease the strength of the wing much just because you got to cruise altitudes.

The struts in this style do add lift. It doesn't make up for the drag though. Yes, they need the struts in cruise. Folding wings exist, including in flight. Yes you can use the hydraulic systems.

You have heard of Google, right?

@@johnnunn8688 Some people prefer conversation. And also this way all of us get to hear the answer.

It's not a box wing, it's a strut braced wing. WZ-7 has a very short wing, even compared to comparable UCAVs like the Global Hawk. The design goals are not even remotely comparable.

@@kilianortmann9979 It's pretty obvious WZ-7's wing design is for structural reasons, where the back half of the wing asts as structural support for the main wing but also generates lift like a biplane. For the Global Hawk's its long and slender wings with extremely high aspect ratio (kudos to American material science for that) is optimized for low speed high endurance and is not suitable for airliners traveling at subsonic speed. If we were to use bracings to increase the wingspan of airliners, I think it's good idea to adopt WZ-7's braced sweep wing where the bracings also generates lift

Reducing induced drag is huge and there aren't many ways to do that besides increase span like this

You do know that they go slow on purpose, right!? Adding another jet that can go such and such miles an hour they still not gonna go over the minimum speed they’re going to go way under it you get more money by going there slower!

A crewed flight for the starliner is planned this year. Sounds like progress to me.

​@@mmm0404 Well yes but you are probably aware of the problems they have had. In 2014 when Boeing and SpaceX were selected by NASA to provide crewed flights to ISS, most people expected that newcomer SpaceX would struggle, but that it would be no problem for Boeing considering their decades of aerospace experience. SpaceX had some challenges along the way but they launched astronauts to ISS in 2020.
Meanwhile Boeing's first uncrewed Starliner test flight in December 2019 was a disaster, failing to reach ISS. NASA had until then pretty much left Boeing on its own, but they now took a much more hands-on approach with Boeing, and their investigation into Boeing's practices led to a list of 80 recommendations for changes. Boeing did all of it and repeated the test flight in May 2022, this time successfully. The next Starliner test flight will be with crew.
Meanwhile in two weeks SpaceX will be making it's eighth crewed flight to ISS, and then another one later this year. The earliest Starliner crew rotation mission to ISS won't be until sometime in 2024, assuming that their upcoming test flight to ISS is successful. That's four years later than SpaceX, although to be fair SpaceX already had several years experience with cargo Dragon.

@@StevePemberton2 well spaceX have rockets that can return to site and land on their own. Its a very ambitious company
Their progress over the recent years has been insane. I'm not shocked they managed to pull ahead so quickly.
SpaceX are like the iPhone that arrived latter but still managed to take the market by storm and become a big market player.
Starliner has nothing on Crew/Cargo Dragon, and the delays have been disappointing more especially for such an experienced company but the main reason both were selected is offer some kind of redundancy and systematic backup of having two crew capsules instead of one.
And hey you have to admit that the statliner is one good looking space capsule. I cant wait for e crewed flight.

@@StevePemberton2 Also consider that for OFT-2 and CFT, Starliner is now at the whims of the ISS docking schedule which is pushing dates out farther ever since OFT-2 landed. They really need a 3rd docking port, deconflicting these is going to be a real pain in the future.

@@mmm0404 They definitively need dissimilar redundancy. It's fortunate that Dragon has flown without any problems. Hopefully Starliner goes smoothly. OFT-2 seemed to go well which is a good sign.

This isn't actually a correction because "beg the question" is commonly used as a synonym for "raise the question" when the context is not a debate. Indeed, if the context isn't classic logic, it's pretty challenging to find an example of someone using "beg the question" in that sense. Language has evolved, and it is probably a good idea to get used to it instead of whining about it.

It really looks like redesign of airports must be considered to keep abreast of aircraft development. Good point Robin.

It looks like we'll be landing a big shiny rocket ship on the moon, who'd have thought?! 😄

I expect they’ll be factoring that in, do you reckon?

@@johnnunn8688 I considered this being about speculation of "I wonder how low drag would be if we would have good enough materials to avoid any braces".

People like you discourage innovation and forward progess. Boeing has always been the industry leader in design and improvement, and there is always a good reason to improve. Sitting around and waiting will do nothing for anyone.

@John Ellis I'm as big a fan of Boeing as anyone else. However, there are no technology upgrades available and fully mature today to allow a 737 replacement with any significant efficiency improvements. No OEM is offering anything radical. I don't think a 3% improvement is worth the effort and expense.

What, because boeing dug up this ancient design? There's a huge number of issues with it, it'd be better airbus pick another path.

What do you think would be the benefit of that?

That could have been a possibility, but something must have weighted against that.

@@Jehty21 Retaining engineering and manufacturing methods?

I was wondering that. One consideration is that those above wing struts would be in compression. Structures designed for tension are much simpler and lighter (often just a cable) than structures designed for compression, which have to resist bucking.

How refreshing to read a comment from somebody with brains.

Or a Pitts, Stearman, Waco, TravelAir... OK, it won't beat any of them in looks! LOL

@@serg2963 Agree 😉👍 They were soooo cool !

I see the keyboard warriors are out

I could Google anything that he does videos for and get the answers quicker. The point is that I want to watch him do a video about the subject. Creators are always asking for video suggestions, I obliged

*yawn* okay bobo

a fuselage clamping systen sounds much more prone to failure though

@TheRookieGamer I worry about the composite to metal interface of folding wing. Maybe there is some really good fasteners and glue. But yes a removable passenger compartment is radical.

Because YOU have not heard of it, doesn’t make it untrue. You think Petter is making this up?

As explained in the video, there are different gate categories depending on the size of the aircraft (including the wingspan). Large planes, like the A380, 747, 777, etc., require larger gates. And smaller planes, like the 737 and A320, are suited for smaller gates. There are gate category fees included in the landing fee package. Large or super-large aircraft will pay more than smaller planes. So you will want your small, single-aisle airplane (which the new wing design is built for) to be physically able to use the smaller gates. If the wings are unable to fold, then the plane can only park at gates designed for larger aircraft, thus making the small plane cost prohibitive.

🤣

I hope you will find it interesting!

100% i do!🤍👍🏼

Yes this is where I first saw the wing, it's good to see more coverage on it though :)

And here I am!! 💕

Indeed!🙂 it is!
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And what a pleasant surprise to find you here (watching aviation reports).
..
Bonne journée🙂
À bientôt