he is thinking out of the box; a pleasure to listen to this guy.

Thanks guys!! Love me a good wing plane!!! My first plane I built over 15 years ago was a Zagi XT wing. I spent over 5 months building it, sanding the leading edge of the wing, making sure I used the same amount of tape, and glue, to get it perfectly balanced. I know, it should not have taken that long to build, but I wanted it to be perfect. I still have the Zagi wing, and still fly it occasionally, but not often, because I don't want to lose it. Thank you guys for all your hard work, you make it possible for us modelers, to have fun enjoying the hobby. I always wanted to be a astronaut or just work for NASA. That dream, just wasn't in the cards for me, but that doesn't stop me from being a space ranger, right here on the ground !

As a glider pilot and mechanical engineer I find your work amazing. Great work

Amazing lecture. It’s a wonderful supplement to my aerodynamics courses for my aerospace engineering degree. I hope to one day work with people like Al Bowers

Much appreciated sir, thank you for making it public

There is insufficient static air pressure at high altitude to provide a pressure differential to support an airplane with high wing loading (many jet fighters). Bernoulli is an inadequate model for wing lift. The reaction model - lift is the reaction to the change in direction of the flow caused by the wing - works. Indeed it works in turbines, axial compressors with reaction blades. Horton vs Prandtl. Hortens interest in washout was positive pitching moment necessary for longitudinal stability of a flying wing. Prandtl interest was efficiency. So Bower right, they were talking about different things. Extrapolating avian “technology” to airplanes is interesting exercise if this kept in mind: birds are the original fly by wire relaxed static stability fliers.

I am sooo amazed! I will try to model such a plane in CAD with the additional resources i found in the comments. It would be sooo exciting to build a model and show it to all my glider pilot friends! This is the most inspirering video i have watched in the last year!

Amazing. It was a real pleasure to see this update, as I was not aware of it (I was looking for an old Albion's AMA video). I have been following his work since late 2011 and I am fully aware of his progressive findings, and the way this update is outlined it just simply marvelous. Way to go, Al!!!

Great talk. Washout has always been a positive part of the wings that I have built and flown over the years. Your explanation on modifying the span wise distribution of lift to promote pro-verse yaw and moving the tip rotor slightly inboard of the tips on your wing design is a brilliant solution.

This is stunningly useful for so much aero and hydrodynamics

Very interesting lecture. Learnt a lot, thank you Al

Blanik L-13 that is very old CzechoSlovakian glider made out of the sheet metal :D I have been flying on that machine too :D It is one of the most iconic gliders of 90s. Great to hear that glider made in my country has been widely unsed by the mighty NASA and US Air Force.

I think Alexandre de Saint Exupery was one of the pilots who started flying rescue flights on mountain slopes in the Alps. He studied birds before doing so. He died on a mission over the Mediterranean Sea during WW2. I may have a nice solution for wing tip control, I mean with reduced drag.

Thank you. Thank you. This was the most amazing lecture.

That Sir is absolutely brilliant.

your work your presentation is a real inspiration. I do not know if I am more impressed by the story starting from Prandtl or by the end result of the design.

Wow!! Fantastic....finally starting to quantify tip/ pro-adverse yaw . Yay materials science to allow test models to be built...

I just want to know how to build a PRANDTL-D big enough to carry me.

Really amazing lecture, even for the 'uneducated' like me. In my mind birds are doing vortice unscrewing. Perhaps fine wingspan pressure sensing plus wing section morphing going to be the future

GREAT FUN! thanks for this!

1:44 omg peter trucker is genius. that was so profound. that quote flipped my life up side down

Mark 18:10 Birds do active controlled stability that men made planes do not. By vectoring their only tail fin, birds can generate pitch and yaw forces.

im working on a foamboard flying wing rc glider and im gonna try to use this info myself, hopefully the days of winglets are over

Thanks !

Hi, 1. at 20.30 Al Bowers says there are 8 new planes that have used the lift curve the espouses. Does anyone know what these 8 aircraft are? 2. I understand there are 2 solutions, span constrained and span unlimited. Has anyone thought of following the span unlimited route and then reducing it to fit the constraint on span. Would all the good effects be lost? 3. As I understand it, if you can get the upwash to such a degree that the lift vector 'points forward' then you get thrust / proverse yaw. Does this require a constantly swept back wing, i.e. swpet back from root to tip? If you look at the planform of a bird the inner section has a bit of sweep back and a bit of sweep forward, which can be approximated to a straight section. It is only the outer sections of a birds wing that is swept back. So, does this mean we should construct flying wings with a straight constant chord center section, with a zero pitching moment airfoil, and with swept back outer section which have appreciable washout?

Excellent!

I always thought birds twist there tails to compensate for yaw, but I suppose the must twist there wings slightly !

F=ma Call it “downwash” leaving the wing; or call it “upwash” approaching the wing, or a combination...either way, if you want lift, the wing has to push down on the air. There’s a net acceleration of the air downward. Meaning the difference in vertical-velocity between the air entering vs leaving will be more-downward, or at least less-upward.

Scanivalve modules are actually way smaller Al! They're expensive but are super useful!

Lots of talk about birds and learning from how they do it. And of course, birds don't have a vertical fin. There IS one, flying creature that did have a vertical fin but that fin was on it's head. Yes, the Pterodactyl. Many years ago, a scale model of such a creature was built. It was a glider and was towed up to altitude. The vertical fin up front proved to be very effective. Now the question is, why did the prehistoric creature need a vertical fin and birds don't? I suspect the answer lies in the fact that the bird has a horizontal stabilizer that can be tilted vertically and act as fin as needed, virtually instantly. I've seen them do this. The pterodactyl had a very poor horizontal surface that was made even more inefficient due to its legs being part of the structure. Hence the need for a vertical fin upfront. What the engineers don't seem to be aware of as it pertains to birds, is that they feel their airplane directly, as they fly. RC Modelers need to fly by sight alone. If you fly from inside the airplane, you have some feedback by way of the seat of your pants, as they say. But a bird feels his plane, his entire body, not just by the seat of the pants, so to speak. And the feedback is instant and it's reaction is instant. Imagine if you could do as they portray in the movie, Avatar. Transpose yourself into the body of say, a hawk, eagle, even a pigeon, you name it. What might we learn from that experience? You would learn that you can change virtually any aspect of your machine instantly. Angle of attack. Pitch and roll. Sweepback. Dihedral. Thickness of the airfoil. The feathers themselves provide feedback along the entire span of the wing. Heck a bird can fold it's wings back and make it disappear as with when they dive for their prey. In a flash, they become a ballistic missile,,, almost. But with the advent of drones, including man carrying versions, all of this wonderful flying on a wing may become obsolete. And if ever ant-gravity machines become a reality, well, that would change everything. I'd bet though, there would still be builders and flyers of these things that we're all so fascinated with.

Amazing

On your taxes you can probably make a donation to this program at NASA.Prandtl wing program.

ARCHEOLOGICAL DISCOVERIES IN PERU INDICATE THAT THE INCAS WHERE HOT AIR BALLOONING !! BUT....NO PHOTOGRAPHS...HI HI

Man this is a tough crowd. Guy is entertaining and funny, sounds like the audience is asleep.

Great talk so far. So lift was originally explained to me using Bernoulli. Then they switched to Bernoulli and downwash. Then the thought was just downwash. Now we're back to just Bernoulli?

ใช่แล้ววิศวกรการบินมันคงต้องสลับกันไปมาระหว่างปีก สามเหลี่ยมกับปีกทรงตรง

Might have to change to topic of my PhD thesis...

I liked so much. In 2005 I was studing flying wings for my engineering tesis. I designed mine flying wing to practice skydiving, and increase my flying time. It was surprise for me tha numbers told me that my wingtip, needed a wash-out instead wash-in. I want to learn more about your studies. Would you share the paper or contact me? Do you have a mail to share information? Best regards. Jorge Díaz

What is the document number of the paper he is showing at the end? I am looking at NASA technical server, but not showing up with what I got.

but I see little similarities between this wing and albatross's wings, I don't see how it can explain why albatross doesn't need tail stablizeres

any updates on this technology?

I think the horton brothers figured this out along time ago with the wing twist!!! "RIGHT"?

It’s likely that the B-2 has its decelerons open to increase its radar cross section.

anyone know where the latest paper he described is? I can only find the paper from 2016.

I did some research to understand what it is exactly but don't find any explain for dummy, bell 🔔 shape ? With a twist ? Visually not maths formula ??

What I don't understand is the leap from taking a vertical winglet and"laying it flat", how is it a winglet if its laid flat in terms of how winglets work? I'd also love to know more about the relationship of winglets to washout because if you lay a winglet down to horizontal as is suggested here your washout affects the AOA of that winglet not so? I get the effect of a raked wing tip as seen on modern airliners but again with wing flex these are almost vertical and thus effective in producing thrust and improving efficiency but Al's wings are rigid and the horizontal tip is just that, a wingtip or extension of the wing how is that in any way a winglet? Another thing that puzzles me on flying wing theory is the idea of setting incidence, in reference to what? How do you attain an incidence with no fuselage or stab to determine airflow angle? If its just a wing its incidence is determined purely by pitch and can't be fixed or set at a predetermined angle because there is nothing to determine relative airflow angle against?

From Videler's Avian Flight: "Boel (1929) refers to experiments by C. Richet whose pigeons were capable of apparently normal flight with all secondary, tertiary, and 3-4 proximal primaries removed." Several other experiments cited draw similar conclusions, including one where the secondary coverts were removed as well. How is this possible if the outermost primaries function as winglets, rather than lift generators?

Would this apply to hydrofoil wings also?

5*!

Have you discussed this with the Open Rotors team?

23:49 I disagree. Is he saying if the winglet was connected by a pin connection it would rotate forward? That violates conservation of momentum. There is no way an airfoil can produce a net thrust into the flow stream. If that was the case it would fly at infinite speed.

I assume your flying wings all use a reflexed airfoil?

Is someone able to help with this; I understand what they have done, but one part confuses me slightly which is the upwash after the wing at the tips. In my head I had thought of lift essentially being equal to downwash, if you accelerate a mass of air downwards you feel and equal and opposite force upwards (lift), so I assumed that any upwash created in the wake would be creating negative lift? But from reading the research paper the wing produces lift along its span, anyone know a bit more about this? Thanks.

This theory of low pressure has been proven wrong. The air over the wing does NOT increase in speed. You can have a perfectly flat wing fly just fine. For golly sake, just look under any plane flying close to the ground and you will see where lift comes from

High flow low pressure low flow high pressure?

How do u accurately design a prandtl wing rc plane using foam?

I wonder what the consequences of these findings are for helicopters...

Mark 5:30 Like most, if not all, respected journals were ran and run by a class of people, one generation after another, in a closed circle and spiral up to a very high place, place above the president and above the cloud, invisible and untouchable. Most papers they published (promote) were author by associate class of their choice. Appears public is closed inside.

Where can I download the report?

Not gonna lie, my RC flying wings are easier to Fly than my other conventional RC planes. I relate to that slap on the back of the head... My flight instructor does that if I start slipping in the turns... but because it is a 152 he just uses his hand..

What about symmetrical profile wing ? 😂😂

I THOUGHT THAT UP WARD TURNED TRAILING EDGES ON FLYING WINGS ACTED AS DECALAGE THAT CONVENTIONAL TAILS PRODUCED AND THUS COULD FLY WITHOUT TAILS

I wonder what the aeronautical engineers would say about a model aircraft trainer, high wing, plenty of dihedral, flat bottom airfoil, that flies just fine with no ailerons, just rudder, elevator and throttle? Yaw AND roll control with just a rudder. In fact, with just the rudder, you can do a complete roll. I can't think of one thing that such an airplane can't do that one with ailerons can do. Of course, lots of dihedral is the answer, something that the Wrights didn't utilize. Most WW1 aircraft had none, some did like the SE5A. What if somebody built a man carrying aircraft scaled up from a successful, rudder/elevator trainer? Such as the Sig Kadet. www.sigplanes.com/SIG-KADET-MARK-II-KIT_p_48.html Would it get certified based solely on it's proof of airworthiness demonstrated by the model? That begs the question, does such a home built exists?

ยังไงปีกก็มีคุณสมบัติที่ยอดเยี่ยมในการบินแค่เรายึดติดอยู่ในกรอบเท่านั้นเป็นอุปสรรคในการพัฒนา

No. You didn't make a mistake.

He lied when he said he is not a smart guy

To be impressed here at all requires total ignorance of what the Horten Bros. achieved 70 years ago with no NASA budget, no engineering degrees, no computers. Google it........

wow, awsome it's 2022 and I'm seeing this video for my first time. He is good till the 13th minute area. saying Wright brothers were the first to ever fly. yep that's what we were taught in school. school taught all of us , crap, lol yep test was another one. fact an identical replica of the very first plane is in a restaurant ( of all places) in Pittsburgh Texas. I've seen it touched it etc. the real one flew in Paris world fair couple years before Wright Brothers got credit at kitty hawk. turns out fir a fact, several people around the world were trying to invent the plane at the same time. They all had a little different approach than the other guys. but at the end of the day , there were multiple people working on it. do back to yhe first one , yhe name of it is "Ezekiel Airship". it did fly, it did fly more than a hundred foot. in fact it was quite the plane. The Mayer. of Pittsburgh and my father were real good friends. Bith are gone now. but the Mayer was a lot older than my Father, he told my father several decades ago that he personally saw it fly around Pittsburgh numerous times, until they took it to Paris for the world fair, and wrapped it around a telephone pole. and thus. the reason for the identical replica. Some people like to believe what they learned in school had to be true and it scared them that they may have learned error.

Jibber jabber.

Wow, what a massively closed mind. Bernoulli being the sole reason for lift? No-one flew before the Wright Bros? Come on!

Ama- why would a bunch of senior citizen gas guys care anything about technology ..ama lmao

5:35 What you just said was an old theory that has been debunked. If the paper doesn't go beyond what you said here, then the editor was right to refuse your publication - according to current knowledge this is nonsense. :|

This guy doesn't know what he is talking about.