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Birds gliding through bubbles reveal aerodynamic trick

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nature video

nature video

4 жыл бұрын

An owl bursting through a cloud of bubbles is helping researchers better understand the aerodynamics of flight. Researchers in London have discovered a new way in which birds use their tail to provide lift and so reduce drag while gliding. They tracked the swirling motion of more than 20,000 helium-filled soap bubbles as they were displaced by birds of prey in flight. Their findings could provide a new way to improve the efficiency of small gliding aircraft.
Read the original research paper at: jeb.biologists...

Пікірлер: 628
@rishighia583
@rishighia583 4 жыл бұрын
The vortices from the wings do NOT generate lift. They are an effect of lift. They generate induced drag and reduce the effectiveness of wings.
@csongorottodande9384
@csongorottodande9384 4 жыл бұрын
*vortex,basically a vortex eliminates turbulence,and by that reduces drag,yes it still creates drag,but much lesser than turbulence
@anatolesokol
@anatolesokol 4 жыл бұрын
you are right.
@erikhellsten5749
@erikhellsten5749 4 жыл бұрын
They are not really an effect of lift either. More what lift *looks like*.
@aidenwrenn5342
@aidenwrenn5342 4 жыл бұрын
When I was doing my PPL the tailplane was used to change the pitch of a/c by using the elevators to increase or decrease the amount of lift it produced. The video seems to be somewhat underinformed.
@digitalpilot6854
@digitalpilot6854 4 жыл бұрын
There was one other thing that they got wrong. Aircraft wings do provide lift! That is how an aircraft can be pitched up or down. By increasing the lift in the elevator the nose is pitched down.
@dynsoar
@dynsoar 4 жыл бұрын
Nice video. I in particular liked the part when the LED was turned on too early and the bird saw a white "wall" and tried to land on it. This was not (of course) involved in the original paper and I appreciate this footage. I'd like to point out 3 things on the video, though: (1) The wingtip vortices do not "helps provide lift". They are unavoidable byproduct of producing lift with a finite span wing, and they actually cause the induced drag. (2) It's not the lift but the *lift coefficient* that is distributed more evenly over the body (spanwise). Please see the red lines in figure 5 of the paper. This is the whole point of the paper... (3) The video acknowledges 2 professors but not the 2 postdocs who played the major roles in the experiments and analysis. No mentioning on the LaVision (equipment company) people either, who not only provided the software/hardware but actively involved in the experiments.
@RobertSzasz
@RobertSzasz 4 жыл бұрын
Things fly by pushing air down. The physics is why the shapes work well, or badly, but the basics are simple 😀
@nelsonphillips
@nelsonphillips 4 жыл бұрын
@@RobertSzasz pulling air down, inversely to a straw that pulls up
@thomasbunce4342
@thomasbunce4342 4 жыл бұрын
Note how the vortices were not on the wingtip, but inboard. This is why birds don't need vertical stabilizers. Prandtl figured out how to reduce induced drag even more than his elliptical lift distribution, but it was practically ignored for 80-90 years. Look up NASA Armstrong Flight Research Center's flying wing called the Prandtl for more info.
@tristunalekzander5608
@tristunalekzander5608 4 жыл бұрын
Also, lift increases drag so I don't know what they meant by "decreasing drag." The least amount of drag would be the tail pointing straight back, parallel with the airflow.
@ke6gwf
@ke6gwf 4 жыл бұрын
@@nelsonphillips the bottom surface of the wing pushes air down, while the air above the wing rushes to fill the low pressure hole that the wing just pushed into the air. And if the wing is an aerofoil shape, it will add more lift that way. It's just the same as a propeller or fan. Does it work by pushing air in front of it, or sucking air? And if you say by sucking air, how come a non aerofoil blade or wing can still work? Lol To put it another way, if you stick your hand out the window while driving down the road, do you feel more pressure on the front, or suction on the back?
@vivekanandottalingam
@vivekanandottalingam 4 жыл бұрын
What I love most is that the birds are thanked in the credits.
@horationelson57
@horationelson57 4 жыл бұрын
Hear. Hear!
@CliftonPhotographer
@CliftonPhotographer 4 жыл бұрын
Yeah, wasn't that a hoot?! 🦉
@Eduardo_Espinoza
@Eduardo_Espinoza Жыл бұрын
Bird - Played as the bird.
@laaaliiiluuu
@laaaliiiluuu 9 ай бұрын
😂
@SirPano85
@SirPano85 7 ай бұрын
They will appreciate it for sure....
@unvergebeneid
@unvergebeneid 4 жыл бұрын
Isn't it more that the vortices are a side effect of producing lift but they themselves actually increase drag?
@davidnikon8501
@davidnikon8501 4 жыл бұрын
Yes.
@dynsoar
@dynsoar 4 жыл бұрын
Exactly... the explanation in the video is incorrect.
@kennethhawley1063
@kennethhawley1063 4 жыл бұрын
Not necessarily. It depends where they are in relationship to nearby flying surfaces. Wingtip sails on gliders and airliners reduce drag by interacting with the wingtip trailing vortices.
@skeetzoid
@skeetzoid 4 жыл бұрын
Yes, I think the narrator's statement on 0:58 is incorrect ('as expected the researchers saw vortices spinning down from the wingtips, this helps provide lift..."). I was taught that ground effect glide on final on a glider is achieved by maximizing lift through compression of the air underneath the wing against the ground and REDUCTION of drag by partial elimination of wingtip vortices. A bigger vortex implies bigger drag as the wing passes through the air. It doesn't create lift.
@fzigunov
@fzigunov 4 жыл бұрын
I think who wrote the script had in mind the circulation theorem. The pair of vortices that is the signature of induced drag is really the same vortex that produces the lift. Thus, the narrator is not really wrong when she said "this helps provide lift". But it's kinda confusing to people who know practical aerodynamics but not the theory. But let's be honest, they've tried their best, the internet will always be smarter than the small team in the production!
@cikif
@cikif 4 жыл бұрын
The first time I'm seeing an actual vector field
@pinkorulez
@pinkorulez 4 жыл бұрын
Fluid dynamics are beautiful
@RT-gn7de
@RT-gn7de 4 жыл бұрын
@@FullAfterburner You should totally make a video on that
@SobboMonkeVR
@SobboMonkeVR 4 жыл бұрын
You just got vectored
@mulhollanddrivehobo6910
@mulhollanddrivehobo6910 4 жыл бұрын
@@FullAfterburner could you tell me more about it? I'm doing electrical Engineering and this sound as a interesting project to develop
@mulhollanddrivehobo6910
@mulhollanddrivehobo6910 4 жыл бұрын
@@FullAfterburner so, I'm starting te new differential equations course and fluid dynamics this semester, hope will go well.I'm gonna try to do projects like yours, have a great day.
@aliptera
@aliptera 3 жыл бұрын
The bird is producing a momentary "down elevator" control exactly when passing the bubbles @0:59 and that's why there is a second vortex pair formed. The bird "knows" exactly to keep it's tail "idle" and not creating any lift as the main wings are much more efficient at creating lift than the tail - this knowledge is shared with most aircraft designers. What the Owl does and no plane can do, is to use the tail as flaps, to supplement lift at slow flight and this is because it can move the wings to control and balance the centre of pressure in relation to centre of gravity. Tail providing lift is a way to make any flight inefficient as it increases the energy spent in air vortex, but at slow speed the Owl needs as much lift as possible, and it's a good way to slow down before landing.
@wonyonglim4436
@wonyonglim4436 9 ай бұрын
I think it was air brake. To increase drag for landing.
@Sabotage_Labs
@Sabotage_Labs 8 ай бұрын
Well, to be more precise... The owl doesn't know...right? It's "instincts" know....lol. Owls are one of nature's perfect killing machines. Millions of years coupled with evolution seems to always end up being the best engineer in the world, eh.😉 This is why we engineers often look to nature to solve complex issues. ☺️
@keesvandenbroek331
@keesvandenbroek331 8 ай бұрын
Nice innovative video, nice.visualization of the airflow. But the description is below par.
@lost4468yt
@lost4468yt 5 ай бұрын
​@@Sabotage_Labsin most birds there's only very very rudimentary instincts for flying. In most the instinct is more of a "stick your wings out and hope you start gliding by luck" thing. They need to learn by observing the parent(s), then figure it out once they can start doing basic flying. The more they fly the better they get as well. This is why many pet birds cannot fly. They're capable but have either never flown, or haven't flown in such a long time that they've essentially forgotten how. They'll instinctively pull them out for a fall (like you would try and block your fall or pull your hand away from pain), and also sometimes flap them when they want to get up somewhere - but the instinctive flapping is normally so bad it generates virtually no lift, it's likely just there so their brain feels the tiny lift and knows it can improve on that. You can normally train birds like this to fly again, but it's really hard, especially if they were imprinted by humans instead of one of it's own species. In that case you need to teach it to fly without even knowing how yourself (thankfully both humans and most birds have very good general intelligence so they figure out what we're trying to get them to do pretty quickly). It probably needs to be learnt as instincts need to be simple to encode. It's really hard to select for large amounts of genetics for a single specific task, and there's just not that much room in DNA, e.g. the human genome is ~720MB and ~710MB of that is just for the internal cellular machinery. Of course it doesn't think about things like elevators, speed brakes, etc as they're all human concepts for human machines. The bird thinks about flying intuitively, just like pilots "feel" the aircraft (but of course the birds intuition is much stronger because it can literally feel and directly control all of the surfaces. It also doesn't make much sense to try and use plane terminology to try and describe what the bird is doing. They can change the shape of the wing in so many variable and tiny ways. And of course they can do it to each independently, and they often do very weird things that would be hard to analyse aerodynamically, but obviously it makes intuitive sense to them since it works. They're really impressive, e.g. I love the way they force stalls in one or both wings in order to take advantage of it. Would love to see a human attempt at such ridiculously variable wings. Probably too difficult and dangerous for human pilots, but given the recent advances in machine learning I would think it might be suitable for testing such designs.
@Kj16V
@Kj16V 4 жыл бұрын
*Aero engineers hate him.* Owl reduces drag with this one weird trick:
@babysquirrels8974
@babysquirrels8974 4 жыл бұрын
Yes! This comment 😂😂 you made my day
@kjw79
@kjw79 4 жыл бұрын
Perfect!
@CliftonPhotographer
@CliftonPhotographer 4 жыл бұрын
Seriously underrated joke! 😄 He was adorable as a baby owl on KZfaq, when you see what he looks like today you'll be shocked!
@nlhernandez39
@nlhernandez39 4 жыл бұрын
Haha
@cptairwolf
@cptairwolf 8 ай бұрын
I love how this video describes an aircraft elevator's purpose in stabilizing flight and makes it sound like a new discovery when even the very first aircraft had it 😂 The goes on to suggest wingtip vortices create lift when in fact lift creates vortices which aircraft designers want to minimize.
@daveharpe
@daveharpe 4 жыл бұрын
"Canard" aircraft do this as well, but they look weird, because the stabilizer is in the front, and also adds lift as it does its job. Rutan's odd looking, but beautiful airplanes are like that. They don't require active stabilization. The other extreme is helicopters and drones, which require a lot of active stabilization, and it was impossible to build one on a small scale until we had the technology to miniaturize the electronics and position sensing devices needed to do that.
@ColinMill1
@ColinMill1 Жыл бұрын
Actually, it is by no means uncommon for model gliders to have lifting tails. Indeed, historically the majority of contest model gliders were designed for and balanced in this way. For high wing aspect ratios (typical of high performance gliders) it is only necessary to arrange that the area loading of the tail is significantly lower than that of the wing for stability to be maintained. However, it was discovered that the advantages of lifting tails was marginal because the tail is operating to a greater or lesser degree in the downwash of the wing. This increases the induced drag of the tail creating a greater drag penalty for the load carried on the tail compared to transferring that load to the wing by using a more forward CG. The wing operates in only about 50% of its own downwash while the tail experiences nearer to 100% of the wings downwash. Additionally, a lifting tail creates its own downwash further increasing the induced drag penalty for lift it generates. This more than anything else is why lifting tails are not as common as they once were.
@FokkerBoombass
@FokkerBoombass 4 жыл бұрын
It looks fancy but the commentary is factually wrong on many levels. We already have planes that actively use all of their control surfaces to improve their effectiveness. Tail fins no longer move just up or down for elevation, thanks to fly-by-wire avionics they (and all other control surfaces) are entirely independent from each other and using computer controls they keep the plane stable in changing conditions. All modern jet fighters utilize this, it's nothing new.
@maruftim
@maruftim 3 жыл бұрын
yes
@jayrana6427
@jayrana6427 3 жыл бұрын
Bro the velocity of the airplanes are very high, for very low velocity and even in turbulent conditions our air crafts cannot fly, but this birds can fly, so bird flight stimulation is necessary.
@hen2005
@hen2005 4 жыл бұрын
As someone who is currently studying fluid dynamics it is amazing to see this!
@zyoungson215
@zyoungson215 9 ай бұрын
Do not listen to this video if you are studying aerodynamics.
@ATruckCampbell
@ATruckCampbell 8 ай бұрын
Vortices do not generate lift, they actually create drag, aircraft designers have been trying to eliminate that drag for 80 years or better.
@DickHolman
@DickHolman 7 ай бұрын
Heathrow on a drizzely, misty is an excellent place to see vortices. There are YT videos.
@lost4468yt
@lost4468yt 5 ай бұрын
​@@ATruckCampbellbut also vortices are generated on purpose on many modern planes because they reduce the amount of drag by reducing turbulence. Also using owls as a study for flying efficiency is kind of dumb. They have selected for very quiete operation and close to the ground gliding, not for normal flying efficiency. They probably generate these to reduce and manipulate their sound signature, and to increase their ground effect (I'd guess also why they have such a concave shape on the underside of the wings) - and maybe also why they have such a widespread tail. It should also be clear just from the shape of their head lol. That thing is like the bird equivalent of an AWACS. It's hugely inefficient for flying, it's just to mount their stupidly sensitive huge eyes and hearing. I mean they literally have an asymmetric skull so they can better locate sounds, and their entire face is like a radar dish to exploit reflected sounds and possibly light. None of that says flying efficiency, it says short range stealth killing machine. There's a ton of birds that are built almost purely for flying efficiency, and they look completely different.
@stingra8
@stingra8 4 жыл бұрын
She has no idea what she's talking about
@NathanChisholm041
@NathanChisholm041 4 жыл бұрын
Please enlighten us?
@turboconqueringmegaeagle9006
@turboconqueringmegaeagle9006 4 жыл бұрын
I'm glad 99% of the comments agree she is completely wrong
@chixinspace
@chixinspace 4 жыл бұрын
@@NathanChisholm041 basically, she states that the wingtip vortices aid in the generation of life, but that is completely incorrect as they actually cause a significant reduction of lift and increase in drag, which is why aircraft manufacturers spend so much time designing complicated wingtip devices to reduce the intensity of those vortices. This is one of the first things that are learned when it comes to aircraft design, so this mistake has absolutely no place in a video about aircraft design and aerodynamics research
@NathanChisholm041
@NathanChisholm041 4 жыл бұрын
@@chixinspace I was led to believe that vortices cause vortex drag on the aircraft thus slowing it down!
@chixinspace
@chixinspace 4 жыл бұрын
@@NathanChisholm041 what you have been led to believe is correct, were talking about the same thing here
@philc9305
@philc9305 4 жыл бұрын
There is a video on the owl and how it is able to fly near silently compared to other birds, all very interesting.
@wordreet
@wordreet 4 жыл бұрын
Owls turn off the microphone.
@MrAFJones
@MrAFJones 4 жыл бұрын
kzfaq.info/get/bejne/msV2eMR3zLDdlnU.html
@makantahi3731
@makantahi3731 9 ай бұрын
vortex generators on wings
@Skank_and_Gutterboy
@Skank_and_Gutterboy 8 ай бұрын
There's a hike that I like to do at night under a full moon. There's a stretch of that trail where an owl always flies about 15 feet over my head, I never hear it coming, and it lets out a screech right over my head that scares the holy crap out of me. EVERY TIME. Thanks for the adrenaline, Mr. or Mrs. Owl.
@NickC510
@NickC510 2 жыл бұрын
Actually a lift-generating tail already exists in planes and is a patented design by Piaggio named 3LS for "3 lifting surfaces". Instead of having a main wing with a center of pressure aft of the aircraft center of gravity and a downward-lift generating tail which creates a loss of energy, the main wings, the tail surface and the "mustache" on the nose all provide lift, therfore no loss of energy occurs. For those interested, on the Piaggio Avanti, even the fuselage provides 20% of the total lift. It is one of the most efficient airplanes now :-)
@MarkLawry
@MarkLawry 4 жыл бұрын
Passenger planes do make use of this. Before each flight they calculate the weight and center of gravity (CG). The cg must be within a certain zone. The more they can move the cg rearward within this zone, the more efficiently the plane flies because then the tail is generating lift instead of counteracting the lift of the main wing. I don't think you have anything new to tell the engineers here.
@michaelderflinger5002
@michaelderflinger5002 4 жыл бұрын
If you put your CG that far back that the elevator is producing positive lift your plane would be in an unstable configuration. It would flip like a reverse thrown dart. But yes you can put your CG back (to certain amount) to decrease the needed angle of attack for a given speed and therefore fly more efficiently.
@Elios0000
@Elios0000 4 жыл бұрын
and Flying wings are even better jack northrop figured this out at the end of WWII
@windowsxseven
@windowsxseven 4 жыл бұрын
these guys have just rediscovered the canard configuration
@TCA17
@TCA17 4 жыл бұрын
@@michaelderflinger5002 Incorrect. It is not the elevator that produces the relevant amount of lift (positive or negative), it's the horizontal tail. And what Mark said is completely correct. You don't need to generate negative lift from the HT to have a stable aircraft. You just need the center of pressure (of the aircraft, not the wing) behind the center of mass.
@TCA17
@TCA17 4 жыл бұрын
@@windowsxseven These birds are not canards. Canard has the stabilizer in front of the wing. Not even a duck is a canard, on this sense.
@MegaAnirudhsharma
@MegaAnirudhsharma 3 жыл бұрын
I came here to see how owls are more evolved in terms of flight capabilities as compared with other birds of prey. However, the video was about something else and as per many comments gave wrong information. Still, the owls are beautiful so I liked it.🦉❤
@kinocchio
@kinocchio 4 жыл бұрын
This is so cool. Those vortices in the soap bubbles look like 2 galaxies spinning in the vastness of the empty universe.
@justanameonyourscreen5954
@justanameonyourscreen5954 4 жыл бұрын
.
@fraserhenderson7839
@fraserhenderson7839 8 ай бұрын
I sincerely hope those are not soap bubbles
@Sfork
@Sfork 3 жыл бұрын
At 0:47 you can see the cosmic owl creating not one, but two supermassive black holes! Another win for science. Well done researchers! The answers to the origin of the universe are almost within your grasp.
@alisioardiona727
@alisioardiona727 4 жыл бұрын
Gorgeous images of the aerodynamics of birds, but the commentary is misinformed : - the tail of a plane does produce lift : it actually can vary the lift produced by using the elevator therefore controlling the pitch of the aircraft. - wingtip vortex reduce lift (since if decreases the pressure under the wing and increases the pressure on the top of the wing) and increase drag (induced drag)
@bradle1354
@bradle1354 4 жыл бұрын
Thank you
@doxielain2231
@doxielain2231 4 жыл бұрын
I appreciate the thanks to the birds.
@richie1326
@richie1326 4 жыл бұрын
Beautiful! For anyone interested in aerodynamics this is really interesting, and of course birds of prey like the owl are amazing and fascinating. However, people can see this for themselves, by watching seagulls as they ride onshore winds on the coast. They use their tail feathers constantly whilst flying, helping them turn and out manoeuvre their rivals. When they come into land, they spread their tail feathers out into a wide 'delta' shape and angle them down, so as to generate extra lift and bleed off airspeed, so they can land at walking pace. Conversely, whilst they are in flight, they can tuck all of their tail feathers into a very minimal, streamlined shape for extra speed, making fine adjustments to their flight with their wings only. Aircraft designers have long wanted to emulate this astonishingly fine tuned control system for agile, efficient flight, but it is expensive and very challenging to implement. Computerised, 'fly-by-wire' control systems make it possible, but stability is still an issue for 'tail-less' high performance aircraft. Research aircraft have been built with wings that actually twist in a controlled way, but no aircraft in service uses this technology. The current designs that are widely used may seem mundane, but they are stable, safe, and easy to build.
@manfredschultz9619
@manfredschultz9619 4 жыл бұрын
richie1326 Seems only those Stealth Bombers currently have the “tail-less” design
@richie1326
@richie1326 4 жыл бұрын
@@manfredschultz9619 yes, good observation, and what an incredible, if somewhat sinister aircraft they are. The design of that aircraft works because it is not supersonic, or intended to be 'agile'. For its size and weight I would guess that it's actually very efficient in flight, although the design remit was, of course, low 'observability' rather than outright efficiency. The fact that it flies at all is an amazing achievement, and testament to the power of modern computerised flight control systems.
@user-qx1yr1di3d
@user-qx1yr1di3d 2 жыл бұрын
Thanks! I utilized the idea of this research for my car DIY modification. By installing a decent size of diffuser (a third of width of vehicle) and adding vortex generators to the end plates of the existing GT wing, my car got more downforce with a flatten angle of attack at the wing, thereby reduced drag. I can feel the car is more sucked on cornering so that made it more fun to drive!
@0MVR_0
@0MVR_0 4 жыл бұрын
Active tail stabalization is already a technique in aviation and used in many smaller planes.
@justicewarrior9187
@justicewarrior9187 4 жыл бұрын
Should have gotten a professor in fluid dynamics explaining this!! Vortices producing lift?? Hahahahahahahaha
@wbeaty
@wbeaty 3 жыл бұрын
Lift is created by vortex-shedding. But to avoid the beginners' misconceptions, you'd need an actul fluids professor, and NOT someone who teaches undergrads, or introductory aerodynamics. Those people would tell you that the airfoil divides the parcels, and the top of the airfoil must have a longer path, so the parcels can re-join again at the trailing edge. (Today called the "transit-time fallacy." Intro textbooks are full of such mistakes.)
@turboconqueringmegaeagle9006
@turboconqueringmegaeagle9006 4 жыл бұрын
Lovely video but you are completely wrong, lift causes induced drag regardless of where the lift is created however the tip vortices only appear when the owl has made a direction change and so it's pretty reasonable to assume that the tail of the bird is acting in exactly the same way as the tail surfaces of an aircraft and are not just providing stability but also acting as a control surface.
@chichan9013
@chichan9013 4 жыл бұрын
We still have alot of things to learn from nature. The Japanese engineers observed and even apply the structure of a Kingfisher's beak to bullet trains which made it more energy efficient and alot faster.
@THYB737
@THYB737 4 жыл бұрын
I saw you before in another comment sections. How is that possible, that's spooky lol
@georgechristoforou991
@georgechristoforou991 2 жыл бұрын
In this video the vortices were not coming from the wing tips. They were coming from about .75 of the length of the wing.
@stephensowell9578
@stephensowell9578 8 ай бұрын
A model plane has done this very thing for many years. It is called the Telemaster and has a lifting horizontal stabilizer and several others.
@tractionoptional
@tractionoptional 4 жыл бұрын
This is one of the most uninformed videos ever.
@titaniusanglesmith333
@titaniusanglesmith333 4 жыл бұрын
The 2 vortices look like the owl's face. They also look like black holes in space...
@danielegerussi7453
@danielegerussi7453 4 жыл бұрын
Vortices don't create lift, they are just a consequence of lift being created, when a vortice is created we can assume lift is being generated too. Vortices actually create more drag and reduce efficiency
@thesuccessfulone
@thesuccessfulone 4 жыл бұрын
If you spontaneously generate a vortex parallel to the bottom of the wing allowing only the underside to have airflow do you think the pressure above the wing would be greater or smaller than beneath the wing?
@lendavidhart9710
@lendavidhart9710 4 жыл бұрын
@@thesuccessfulone Player, that vortice is i think way behind the the wing, it just looks like its under the wing.
@thesuccessfulone
@thesuccessfulone 4 жыл бұрын
@@lendavidhart9710 but if it were under, would it not generate lift?
@lendavidhart9710
@lendavidhart9710 4 жыл бұрын
@@thesuccessfulone player, i dont know, well on second thought it might, think about, why do geese fly in the vee, you know those votices flare out, maybe they know something that scientists dont!
@thesuccessfulone
@thesuccessfulone 4 жыл бұрын
@@lendavidhart9710 I think the thing we call "drag" is just lift but in the downward direction.
@benitodeorte2715
@benitodeorte2715 4 жыл бұрын
I am no expert, but I always thought that fly-by-wire passenger planes since the first Airbus use lift also from the tail, hence having smaller main wings and saving fuel. I read it in 1990, I remember because I was then doing Erasmus in Glasgow University and I liked to read books at the aeronautics library.
@weatheranddarkness
@weatheranddarkness Жыл бұрын
Might have been touted as a possible thing, but it doesn't seem they do do that. If you look at the wing profile of the horizontal stabilizers of almost any passenger jet you'll see they're actually inverted foils in a lot of cases, at least at the root.
@makantahi3731
@makantahi3731 9 ай бұрын
it makes"lift" just to compensate CG that can go more far from neutral/stable point
@blaineburgess
@blaineburgess Жыл бұрын
Vortices do not produce lift, they create drag. the vortices are formed by the high pressure air escaping to the low pressure zone above the wings. Smooth airflow over their airfoils allows them generate lift using their wings. The vortices are a byproduct.
@ColinWatters
@ColinWatters 8 ай бұрын
For an aircraft to be stable and easy to fly the centre of gravity must be forward of the centre of lift. Unfortunately this causes a nose down pitching moment that the tail must correct by producing a down force (negative lift). Since total lift must equal weight this means the wing must produce more lift than strictly necessary. This in turn means its creating more drag and burning more fuel than necessary. So we would like to move the centre of gravity back and fix the stability problem this would cause some other way (eg by using a computer). This has been known for decades, I guess we just didn't know birds could do it without one. Edit: This is a bit of an over simplified explanation.
@5002strokeforever
@5002strokeforever 4 жыл бұрын
Burt rutan's airplane designs used the tail for lift decades ago. The trick was to make the main (front) wing have a higher angle of attack so it always stalled before the tail, making it inherently stable. Modern aircraft the tail pushes down when in flight...
@RobertLBarnard
@RobertLBarnard 4 жыл бұрын
Really a well made video and a British accent adds no less than 20 IQ point. Imagine engineers mimicking nature and using all horizontal surfaces to generate lift.... perhaps like the canard in the front of the Wright Bothers planes, or those of Burt Rutan. Yeah, that'd be something.
@nelismoll5147
@nelismoll5147 8 ай бұрын
Newtonian physics. Action and reaction is numerically equal but opposite. The bird accelerate air downward (action) and the resultant equal reaction upward is called lift
@Muonium1
@Muonium1 4 жыл бұрын
birbs
@thelastcrusader5439
@thelastcrusader5439 9 ай бұрын
So glad I start at Embry-Riddle next year, stuff like this is so exciting and interesting
@gasdive
@gasdive 4 жыл бұрын
Ahh, anyone who has ever watched a bird fly knows the tail gets used as a lifting surface. Pitch is controlled mostly by moving the wings forward and back. If the tail was used for pitch, it would come up during landing flare to raise the nose. It comes down, while the wings swing forward. This video appears to be by people who know nothing about birds, or aerodynamics, but the bubbles were pretty.
@thesuccessfulone
@thesuccessfulone 4 жыл бұрын
How does bringing up the tail raise the nose?
@gasdive
@gasdive 4 жыл бұрын
@@thesuccessfulone well on an aircraft, which doesn't control pitch by moving the wings forward and back, lifting the tail (elevator) pushes the tail down, and the nose up. Birds don't do that.
@thesuccessfulone
@thesuccessfulone 4 жыл бұрын
@@gasdive Pushing the tail down and the nose up?
@gasdive
@gasdive 4 жыл бұрын
@@thesuccessfulone yeah, basically that's how an aircraft is controlled in pitch. If you watch a plane take off, it trundles down the runway, and when it's going fast enough, the back of the tail, (called elevators on a plane) lift up. That pushes the tail down, the plane pivots on the wheels and lifts the nose. Because the wings are fixed to the body of the plane, that means the wings pitch up. The front of the wing is now higher than the back of the wing. So as it hits the air it throws the air down. That pushes the wing up, and the plane takes off.
@gasdive
@gasdive 4 жыл бұрын
@@thesuccessfulone you can see it pretty clearly in this video. The tail is set quite a long way up during takeoff to lift the nose. kzfaq.info/get/bejne/l56Zd7Cn0MzQaYU.html kzfaq.info/get/bejne/l56Zd7Cn0MzQaYU.html
@Shandakel
@Shandakel 4 жыл бұрын
Lift creates drag, always. So they generate lift without drag is an erroneous statement. You can reduce the drag, but just having a separate surface to generate lift won’t do that.
@currentcomentor1026
@currentcomentor1026 4 жыл бұрын
The direction of the swirls shows that the tail is generateing lift rather than downforce. I am puzzling over how the bird is stable (unless it isnt and the flight computer/brain is good enoigh). Cannards do the same thing at the front of an aircraft.
@IstasPumaNevada
@IstasPumaNevada 4 жыл бұрын
Others have said it too, but I'll signal boost; the vortices don't produce lift. That is blatantly wrong. They produce drag, and are a byproduct of the way wings produce lift. However, the video is correct the fact that the tail produces the same downward-travelling vortices indicates that the tail is also producing some lift during some of the experiments, instead of just steering.
@cink1461
@cink1461 4 жыл бұрын
It took engineers and computer programs to design the toy airplane; yet many people still believe that the vastly superior flight design of a bird happened by blind chance.....
@europaeuropa3673
@europaeuropa3673 4 жыл бұрын
Ha............someone once said that evolution was akin to creating a full sized, ready to fly 747 from a tornado passing through a building housing all the parts.
@aldenroswell8504
@aldenroswell8504 4 жыл бұрын
Not quite many people build rc and full sized airplanes in there garage you don't need engineers and computer programs for it.
@windowsxseven
@windowsxseven 4 жыл бұрын
years of tumbling around and getting hit by cars has put this small rock by the side of my house, yet many people believe it was a divine being that spawned it there...
@cink1461
@cink1461 4 жыл бұрын
@@aldenroswell8504 try building all the parts for the airplane without engineers and computer programs and let me know how that works out. Assembling pre made parts in your garage is a far cry from designing it
@cink1461
@cink1461 4 жыл бұрын
@@europaeuropa3673 I believe it's even more unrealistic than that once you factor in that the parts for the 747 were already there. If it were a true depiction, the tornado would need to build all the parts from raw materials as it blew through the building.
@kushalagarwal6706
@kushalagarwal6706 4 жыл бұрын
Sorry, this video makes absolutely no sense. I'm an aerospace engineer. You can't decrease drag by generating more lift. In fact, increasing lift increases a component of drag called induced drag.
@SergioHidalgoAero
@SergioHidalgoAero 3 жыл бұрын
My god, please watch this making sure the sound is OFF
@jeffreyoneill6439
@jeffreyoneill6439 4 жыл бұрын
Very interesting. I can’t help wonder what it is like to breath the bubbles. I suppose it would just be a bit of soap. A little helium shouldn’t hurt.
@kevinkostlan7934
@kevinkostlan7934 2 жыл бұрын
The bubbles are so tiny and the soap is so dilute that you probably wouldn't even notice the soap. Or the helium.
@whisperingeagle
@whisperingeagle 3 жыл бұрын
Just remember this. Everthing in nature is in its closest to perfect design. When flying my hang glider in thermals its just great to watch the birds head turn and laugh at me.
@clairecelestin8437
@clairecelestin8437 8 ай бұрын
That's not quite true... Evolution does optimize towards the local minimum of the phasespace, but there are still major design flaws in natural or living systems. For example, in humans, the respiratory and the digestive pathways intersect in the throat, causing a lot of humans to accidentally inhale food and die. We rely on the epiglottis to save our lives every time we swallow. This is not the case in, for example, dolphins, who have the respiratory and digestive openings located far apart.
@sciencecompliance235
@sciencecompliance235 8 ай бұрын
Everything in nature is most definitely not closest to "perfect" design, but evolutionary pressure does create some extremely efficient biological machinery for certain tasks.
@tristunalekzander5608
@tristunalekzander5608 4 жыл бұрын
What? That was the conclusions? "It makes swirlies and its tail also provides lift." I could have told you that from the footage. I thought they would say the swirlies at the end of the wings stabilize the bird's yaw axis or something. So what you are saying is, we pretty much learned nothing?
@TCA17
@TCA17 4 жыл бұрын
Did you read the paper?
@tristunalekzander5608
@tristunalekzander5608 4 жыл бұрын
@@TCA17 Reading is for chumps.
@TCA17
@TCA17 4 жыл бұрын
@@tristunalekzander5608 Rock on 👌🏼
@keltondavis4559
@keltondavis4559 4 жыл бұрын
@@tristunalekzander5608 well keep in mind that whoever wrote this had zero clue what they were talking about
@HotelPapa100
@HotelPapa100 4 жыл бұрын
There's no problem at all to design a stable plane with a elevator that creates lift. (Most free flight model gliders use such a design, and by their very purpose they need to be naturally stable.) They usually have rather long tails, though; not exactly the feature of your common bird. Birds are really mostly what an aerodynamicist would call a tailless design. Having two sets of trailing vortices in such a wing actually is the hallmark of a poor aerodynamic design; induced drag of such a wing is more than minimal. In humid conditions you can see this effect on commercial planes in landing configuration; you see condensation in the trailing vortices shedded by both the wing tips and at jumps in lift at the edge of flaps. Now nature does not necessarily optimise for best efficiency. In a bird of prey I would expect optimisation towards best agility.
@soinelle85
@soinelle85 4 жыл бұрын
Just like military jets is optimized for agility at the cost of stability and commercial airliners is optimized for economical distance efficiency and stability. What ever this study they are doing in this video isn't going to make any break through discoveries. Laughable how they say the vortices reduce drag. It was cool though to see how a birds aerodynamics work though.
@oldsklteg
@oldsklteg 4 жыл бұрын
Thats a whole lot a induced drag there. Not increasing efficiency with that one.
@janswildlife9163
@janswildlife9163 4 жыл бұрын
Engineers have been using this idea for years on fighter jets.
@BrinkYeti
@BrinkYeti 4 жыл бұрын
Which fighter jet uses it's horizontal stabilizer to generate lift in cruise (not ascending/descending) flight conditions?
@Handlebarrz
@Handlebarrz 4 жыл бұрын
Fighter jets aren't gliders
@JosephHHHo
@JosephHHHo 4 жыл бұрын
Decades
@THYB737
@THYB737 4 жыл бұрын
@@Handlebarrz you are totally lost
@Handlebarrz
@Handlebarrz 4 жыл бұрын
@@THYB737 did you watch the video? This is good for gliders since the birds use the tail the same way planes use the wings. Fighter jets tails are NOTHING like the tails of these birds. They function differently since the birds can generate lift with the wings and tail making the gliding more efficient. A jets tail generates thrust from the actual jet engine and the lift comes from the wing flaps being adjusted. Tail flaps for help with turns and maneuvers. Imagine manually flying a plane with a moving tail. Holy fuck
@NelsonBrown
@NelsonBrown 4 жыл бұрын
Looks like the vortices start slightly inboard of the wingtips. 🤔
@thomasbunce4342
@thomasbunce4342 4 жыл бұрын
I was wondering if anybody else would notice. Of course it would be someone who already knows that. ;)
@dekutree64
@dekutree64 4 жыл бұрын
Good catch :) See Al Bowers' lectures on Prandtl wing design for details.
@NelsonBrown
@NelsonBrown 4 жыл бұрын
@@dekutree64 I've heard Al talk about this for dozens of hours. 😉
@poruatokin
@poruatokin 4 жыл бұрын
It's not a "toy" plane.
@gregriley349
@gregriley349 4 жыл бұрын
It's a Bob Martin Talon slope soarer. I have one that uses JATO
@svtirefire
@svtirefire 4 жыл бұрын
Easy there Heinrich Dorfman
@twickersruss
@twickersruss 4 жыл бұрын
As soon as she said "toy" I turned off her . An aerodynamicist would never call a flying model a toy.
@bradle1354
@bradle1354 4 жыл бұрын
Model aircraft have been flying with lifting horizontal stablizers since the 1920 and 30s and they are very stable.
@mitseraffej5812
@mitseraffej5812 4 жыл бұрын
Airlines when they can load their planes with the centre of gravity as far aft as allowable, this enhance performance and economy by reducing the downward force produced by the horizontal stabiliser. This also results in an acceptable loss of pitch stability. They never get to a load configuration where the horizontal stabiliser actually produces upward force or lift.
@davidegaruti2582
@davidegaruti2582 4 жыл бұрын
So essentialy canards wings ? Or fly by wire unstable aircraft ? Those already exist , but maybe this will help us icrease their efficency
@PaulG.x
@PaulG.x Жыл бұрын
Lights flash on. Birb: "Aaarrrrgh bubbles!!!" Lights flash on. Yooman: "Aaarrrrgh spiders!!!"
@claymore609
@claymore609 4 жыл бұрын
The vortex's are not coming off the wing tips, rather just before it, this causes the tips to provide a small amount of thrust, when the Prandtl equation is graphed the area of lift ends in a nice curve, but if the graph is made longer you can notice the equation continues to increase gradually after the curved termination, when applied to the wing you would achieve "Positive Yaw" and would have no need for a vertical stabilizer.
@weatheranddarkness
@weatheranddarkness Жыл бұрын
Do you have a link to this? This video doesn't seem to illustrate the actual formation of the vortices very well as it's a bit low res
@janofb
@janofb 9 ай бұрын
Engineers have created Canards which mimic the same thing. It's just that they're in front of the wing instead of in the tail.
@JETZcorp
@JETZcorp 2 жыл бұрын
Some airplanes do produce lift at the tail. The F-16 with it's reduced stability, sometimes lifts slightly depending on the speed and load. This is only possible with very fast controls being overseen by a computer. However birds employ other aerodynamic tricks to self-center themselves and achieve stability without as much parasitic drag or active intervention. Our airplanes use their tail for everything, which is simple and powerful, but relatively inefficient. Birds do much more of their control via the main wings, in a way which we are only starting to understand. There is a reason birds don't have rudders, and they're more efficient for it. But, birds don't have titanium or jet fuel at their disposal, so you've got to give the humans some credit too.
@mastpg
@mastpg 6 ай бұрын
The F22 has lift producing flaps on the tail. It just needs to be actively managed. Allows for supersonic flight without afterburners.
@myusername3689
@myusername3689 2 жыл бұрын
Vortices increase lift at lower speeds but also increase induced drag because of higher downwash. However they do reduce turbulence.
@carlossvazquezz
@carlossvazquezz 4 жыл бұрын
Vortices don’t generate lift. Vortices a result of lift
@thesuccessfulone
@thesuccessfulone 4 жыл бұрын
Okay, but explain how a vortex beneath a wing wouldn't lift it.
@carlossvazquezz
@carlossvazquezz 4 жыл бұрын
Player_1 In very basic terms, a wing generates low pressure above it so the pressure beneath it is higher than in the upper part. A vortex is the result of those two pressures trying to equalize at the tip of the wing.
@thesuccessfulone
@thesuccessfulone 4 жыл бұрын
@@carlossvazquezz How would a vortex not lift it?
@KINGZMurphy
@KINGZMurphy 4 жыл бұрын
it looks like the owl is interstella and just spawned 2 black holes
@nuclearcasserole
@nuclearcasserole 8 ай бұрын
the lift from the tail is just about essential, especially when carrying another animal that is about to be a meal. very cool video.
@dimitristripakis7364
@dimitristripakis7364 3 жыл бұрын
Why would a tail that generates lift make the rc airplane unstable? It would change the CG and the lift pressure center, sure. But this does not mean unstable. With some rearranging of the carrying weight, it could be brought to balance again.
@techcafe0
@techcafe0 5 ай бұрын
engineering that takes inspiration from nature is called biomimicry
@thornerg2
@thornerg2 8 ай бұрын
Surely aircraft tails DO produce lift, don't they? The stabilizer has movable fins on it (elevators?). If the fins are moved to create more lift, the nose of the plane will drop and the plane will descend.
@quantomic1106
@quantomic1106 8 ай бұрын
Nature is such an ingenious engineer.
@rolandjollivet38
@rolandjollivet38 4 жыл бұрын
All that research and they don't know what they are talking about. Vortices do not create lift, nor are they a consequence of lift being generated. Votices are an inadvertent result of using wings to generate lift. The differing air pressures over the wing 'curl' over at the end, lower pressure on top as seen by the direction of the swirl. Vortices are highly undesirable. That is partly why gliders have very long wings, to try and move the vortice point as far out as possible. An infinite wing would be the ideal. No vortices. But that is not practical. So on boeings, they extend the wingtips upwards. This effectively extends the length of the wing, and lift, and attempts to reduce the formation of vortices.
@macrumpton
@macrumpton 4 жыл бұрын
I wonder if this is akin to the way the alternating vortices generated from a fish tail push against each other to generate more thrust. I wish this video was more specific and told us how much difference having the second set of vortices made. 2%? 30%?
@sunny5763
@sunny5763 4 жыл бұрын
Birds: MY FUCKING EYES!!!
@michaelkirby2269
@michaelkirby2269 4 жыл бұрын
The stabilization of the elevator is an upside wing. Flat on top and curved on the bottom. It is trying to induce lifting force but opposite to the wing and smaller.
@THYB737
@THYB737 4 жыл бұрын
That is not correct. The elevator of an aircraft is symmetrical. It creates downward or upward force by just changing its pitch.
@michaelkirby2269
@michaelkirby2269 4 жыл бұрын
Yes and no I was referring to the entire horizontal tail. Not just the hinged section aft of the non moving area. If you get to examine a wing, they are flat on the bottom and curved/ airfoil on top. That is how the Pressure is change via the Venturi principle to create lift. The empanage is just the opposite flat on top curved on the bottom. FYI the rudder is usually even on both side, curved. And yes the portion that is hinged moves to yaw the plane.
@THYB737
@THYB737 4 жыл бұрын
@@michaelkirby2269 I was talking about the whole horizontal stabilizer, not only the elevator, which is moved by the Yoke or stick. The horizontal Stab is symmetrical. You don't necessarily need a curved plate to create lift. A symmetrical plate can also create lift by changing its angle to the relative airflow. Trust me. I'm pilot.
@joey_bonin
@joey_bonin 9 ай бұрын
Great piece. Fascinating.
@Leela_X
@Leela_X 4 жыл бұрын
Ok, they can make use of it. How?
@albertmarti2718
@albertmarti2718 4 жыл бұрын
engineering sorcery
@dsdy1205
@dsdy1205 4 жыл бұрын
Make the tailplane provide more lift by giving it a slight camber, more intricate surfaces, that sort of thing. Basically offload some of the lift onto the tailplane and treat it like a second wing.
@windowsxseven
@windowsxseven 4 жыл бұрын
@@dsdy1205 i.e. canard configuration, reason it's not common is because it requires active stabilization (which birds pretty much do) and FAR 25 restricts it
@bird271828
@bird271828 4 жыл бұрын
I love how birds fly.
@morefiction3264
@morefiction3264 9 ай бұрын
What a wonderful design.
@kingkoolkata
@kingkoolkata 4 жыл бұрын
Hmm? The Piaggio Avanti also generates uplift on all three wings only. Therefore the Main Wing could be much smaller and its aspect ratio is very large, more compared to gliders. I do not understand why Airplanemanufacturers do use this canard wing layout for bigger planes🤷‍♂️
@ryanhewett1663
@ryanhewett1663 3 жыл бұрын
The Vortices are shadow evidences of the drag from the wings of the owls; the shadow vortices are not the lift.
@XxKamaelxX
@XxKamaelxX 16 күн бұрын
Big migritory birds like geese use the vortices as a quick And easy way to gain lift. That might be the reason why the fly in V-shape formation. The birds i the back have it easy, the birds in the front have to use their strenghth. And they take turns
@analog9439
@analog9439 10 ай бұрын
I just realized that the bird increases the angle of attack of both its wings and its tail to increase the lift and rise just before passing over the camera
@makantahi3731
@makantahi3731 9 ай бұрын
because cg goes to rear
@johnlebeau5471
@johnlebeau5471 8 ай бұрын
Understanding Flight, Second Edition 2nd Edition by Scott Eberhardt (Author), David Anderson (Author) If anyone really wants to know how a wing works, read this. A wing, bird or airplane, doesn't matter, works by throwing air downwards, the mass of which is equal to the weight of the thing that is flying. The vortices are merely a byproduct of that downward movement. Watch the video again and notice how the bubbles behind the bird are all moving downward. The vortices form after the wing has passed, and in themselves do not contribute to the drag of the wing, nor do they produce lift. The strength of the vortices are a function of the amount of downforce being produced by the wing, and that downforce is where the drag is coming from. You get the same vortices behind the paddle as you are rowing your canoe. Yes, it does change close to the ground as the downward moving air is now pushing against a solid instead of a fluid. As far as the vortices from the tail, a bird uses it's tail in a very intricate manor to stabilize itself. Producing lift depends on how the bird is holding it's tail at any given time. Basically, this whole video is wrong.
@gerscheeve297
@gerscheeve297 7 ай бұрын
As always lift generation is presented as some kind of magic. But it is a verry simple proces. Air has mass. When you throw it down, it is reluctant to move and causes an upwards reaction force. Flying animals and aircraft throw down air, as can be seen in this wonderful video. The air behaves verry fluent ofcourse, with vortexes at wingtips, but also a circulation pattern caused by the fact that the flow above the wing is faster than the flow below the wing. Airplane and animals leave wonderful swirling trail of air that is being thrown down.
@frogsoda
@frogsoda 8 ай бұрын
Sometimes it surprises me what researchers are surprised by.
@voiceofreason162
@voiceofreason162 4 жыл бұрын
It means God is twice as good at creating birds and didn't have to make a mark 2 anything. And we are learning to copy these ideas without crediting the designer. Nice touch mapping the helium balloons.
@THYB737
@THYB737 4 жыл бұрын
Well said.
@Sauromannen
@Sauromannen 4 жыл бұрын
No, it is called evolution and natural selection.
@voiceofreason162
@voiceofreason162 4 жыл бұрын
@@Sauromannen kzfaq.info/get/bejne/jZePfqiHxqndkXU.html
@2000yearOldYogiAspirant
@2000yearOldYogiAspirant Жыл бұрын
But the way the vortices are spinning makes it look like the air flow (the air flow of the vortice) is hitting the bird ontop, against lift, pushing him down
@JS-yj7ow
@JS-yj7ow 8 ай бұрын
Sudden flash? More like turning lights on suddenly for a noticeable period of time.
@JustSayN2O
@JustSayN2O 8 ай бұрын
An airplane’s horizontal stabilizer and elevator do provide lift. Downwards lift.
@flechette3782
@flechette3782 8 ай бұрын
Modern fighter jets already do this. They are statically unstable and can only fly with a computer that constantly adjusts the tail, just like a bird.
@fonyterguson9894
@fonyterguson9894 4 жыл бұрын
This also happens when you poop underwater and try to swim fast
@RonanKearney1
@RonanKearney1 4 жыл бұрын
Waow. Love the vortex. Class looking
@lost4468yt
@lost4468yt 5 ай бұрын
Using owls as a study for flying efficiency is kind of dumb. They have selected for very quiete operation and close to the ground gliding, not for normal flying efficiency. They probably generate these to reduce and manipulate their sound signature, and to increase their ground effect (I'd guess also why they have such a concave shape on the underside of the wings) - and maybe also why they have such a widespread tail. It should also be clear just from the shape of their head lol. That thing is like the bird equivalent of an AWACS. It's hugely inefficient for flying, it's just to mount their stupidly sensitive huge eyes and hearing. I mean they literally have an asymmetric skull so they can better locate sounds, and their entire face is like a radar dish to exploit reflected sounds and possibly light. None of that says flying efficiency, it says short range stealth killing machine. There's a ton of birds that are built almost purely for flying efficiency, and they look completely different.
@jhmcd2
@jhmcd2 8 ай бұрын
Wow, this looks like the same effect you see on aircraft. They are nearly identical.
@Elios0000
@Elios0000 4 жыл бұрын
just a note there are lifting tail designs already and birds are closer to flying wings that already do this "trick" Jack Northrup figured it out years ago
@ChicanaLoca1315
@ChicanaLoca1315 8 ай бұрын
Its 2023 and we still don’t have a canard style commercial jet…. Why?
@solandri69
@solandri69 8 ай бұрын
The tail on planes is designed to generate downward force, not lift. This seems counter-intuitive (you're trying to keep the plane aloft - why do you make the tail push it down?), but was implemented after the BAOC One-eleven crash in 1963. During a test flight, the plane entered a high angle of attack where "dirty" air from the wings flowed over the tail. This deprived the plane of pitch control. The plane was stuck in that pitch up attitude until it stalled and crashed, killing all aboard. As a consequence, planes are now designed to be nose-heavy (wings are behind the center of gravity). The tail them pushes the rear of the plane down to keep the nose up and plane level. If dirty air from the wings ever interferes with airflow over the tail, the tail stops pushing down and the nose then drops, averting a stall and allowing clean air to flow over the tail again, restoring pitch control.
@paulcooper8818
@paulcooper8818 4 жыл бұрын
Owls are cool
@whisperingeagle
@whisperingeagle 3 жыл бұрын
Yes the vortices dont produce lift. BUT they are a result of of air molicules being seperated as in bernulies principle creating more lift from the tail. Also the laminar tail of a bird is much more aerodynamicly efficient in reducing drag than a standard aircraft tail. The more compressed air molecules underneath the more laminar seperated moecules above the much increased lift. A better demonstration would be from above the bird where it really matters. The author just used the wrong description. The vortices are the result of the lift.
@dpetty3461
@dpetty3461 4 жыл бұрын
Wow, spectacular video. Thanks!
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