Hello everyone, I made this video after learning about lift in my high school physics class. Now I study engineering at Cornell University and I am taking an Aeronautics class because I wanted to know if what I was taught in high school was correct since I have many comments on this video saying that my explanation of lift using Bernoulli's principle is incorrect. Now I will try to respond to these comments based on what I have learned: First, in my video, I say that air travels faster over the upper surface because it has to cover a larger distance in the same amount of time as the air on the lower surface. This statement, also know as the equal transit time argument, is false! There is no physical principle that requires equal transit time and in reality, experiments have shown this is false. Furthermore, there are 2 popular lift theories, one relying on Newton's 3rd law, saying that airfoils deflect air downward and so the wing must experience a force upwards, and the second is based on Bernoulli's principle which correlates a difference in speed above and below the wing to a difference in pressures, causing lift, but it does not explain where the difference in speeds comes from. Therefore, both theories, used alone, are not necessarily incorrect, but they are incomplete. A more comprehensive and correct explanation of lift involves both theories, in which pressure differences along the airfoil are caused by a curved airflow (curved streamline). For straight flow, the pressure difference is zero, but for tight curvatures, there are large pressure differences along the surface. The non-uniform pressure distribution along the airfoil causes changes in the flow's direction and speed (Bernoulli's principle), where the air is accelerated from high pressure regions to low pressure regions. The pressure differences are only possible because air has mass and inertia and therefore resistance to movement. Airfoil surfaces are designed to deflect air downwards by using these pressure differences to accelerate air along the mostly downward sloping surface on the airfoil contour. The downward forced air then exerts an equal and opposite force (Newton's 3rd law) on the wing pushing it upwards. In summary, both principles are required to explain lift properly. Believe it or not, Wikipedia has a great explanation of lift if you read the first four sections (en.wikipedia.org/wiki/Lift_(force)). Hope this helps!"
@WilliamsonGene5 жыл бұрын
I think you did exactly what we want to see, how an airfoil rises without any change in Pitch. Right there in the box. Can't wait to see what you come up with next! ( I assume you got an A.)
@FollowFunk4 жыл бұрын
Gene Williamson that wing was pitched upwards slightly actually.
@lukeskywalker904434 жыл бұрын
Did you forget the pin this
@Eu_Sim4 жыл бұрын
O vento proveniente de hélices chegam girando como turbilhão. O correto é um vento mais linear para um teste mais real
@desireercortez3 жыл бұрын
Hey, could you please list which materials you used and where to buy them? 😁 I know you’re probably super busy with school! But I absolutely love your project and I want to do it for my Aerodynamics class!
@bocelle83413 жыл бұрын
Your ability to build this with things like pen housing for sleeves and the simplicity of design is brilliant!
@chrisod127 жыл бұрын
You should get a newton scale with a spring and attach it to measure the force produced.
@anilallipilli15693 жыл бұрын
Small correction: wing placed upside down is still a wing. Spoiler serves a different purpose it "spoils" the air flow which will cause lift it didn't, its the wing's job to create downforce. Anyway job well done.
@egamez14 жыл бұрын
Great project. Congratulations...but...the Bernoulli effect has very little effect on the production of lift on a wing. The Coanda effect of fluids acting on a curved surface creates a down-wash of the fluid, thus creating lift. So Newton's 3rd law of motion is the one "doing all the lifting", not Bernoulli's law. Great experiment!!!
@grupdefilosofia91023 жыл бұрын
I was searching for this comment
@fredmdbud3 жыл бұрын
It's still a pressure differential that creates lift - www.grc.nasa.gov/www/k-12/airplane/bernnew.html#:~:text=The%20proponents%20of%20the%20arguments,deflecting%20a%20flow%20of%20gas.
@klaasvanmanen82145 ай бұрын
Very nice for a first attempt but..... Experiments in a wind tunnel give much more accurate and repeatable data when done in laminar flow. By putting your ventilator in front of the model, you shoot a lot of very turbulent air onto the airfoil. The only thing you can really see here is that it actually moves. By moving the ventilator to the other side of the 'tunnel', and having it suck air *out* of the box, the flow around the airfoil will be less turbulent. Adding a honeycomb structure at the side where the air is sucked into the box, can reduce the turbulence even more, and create something which may start to look like laminar flow. The honeycomb structure should consist of small parallel pipes, similar to straws for drinking, placed in the direction of the flow of course, and cover the whole of the entrance. The walls of the straws should be thin compared to the diameter, to avoid introducing lots of drag. Pulling the rotor even further away from the airfoil (making the box much longer) will also help to improve laminar flow. I guess you will have learned this by now since the video is already 10 years old. But then my comment may help your viewers who would like to copy your setup. Just copying would be a bad idea if they want to create something that actually deserves to be called a wind tunnel.
@rodomoyo91222 жыл бұрын
This is so fucking cool dude, I’m making an engineering club for my highschool and I think this could be a rly fun project
@AerialPhotogGuy6 жыл бұрын
Very good project and very well done!!! Nice presentation too!!! It looks like the angle of attack is higher on the airfoil shaped wing than it is on the flat wing but that may not be the case, it could be that it just appears that way from where I sit. If the angle of attack is less on the flat wing than on the airfoil shaped wing, then the comparison between the two wouldn't be fair, an "Apples to Apples" comparison for angle of attack would be required but again, they may just appear to be different from my perspective. Either way, your experiment clearly shows that an airfoil shape performs much better than a flat wing regardless of angle of attack. Lots of RC guys fly flat foam wing planes including me and they fly pretty good as long as they have enough power (like a 1.25 to 1 thrust to weight ratio or better). Give it enough power and almost anything will fly 😁. It is true that an airplane with the typical airfoil design does not need as much power to fly (when compared to a flat wing airplane). Although a flat wing airplane will fly, it will fly better and more stable with more lift if the wing has the typical airfoil shape because the air flowing across the wings adheres to the surface of the wing much better than it does over a flat wing with a square or blunt leading edge, the reduced pressure on top of the airfoil shaped wing certainly has an advantage over a flat wing with regards to lift. I fly full scale airplanes as well (got my PPL many years ago) and I certainly would not even attempt to fly a full scale airplane with flat wings 😮 I tried flying a model 3D foamy with square leading edges, then I flew another one where I rounded the leading edge to help keep the air attached to the wing and while there wasn't much difference in the overall performance, it did show improvement with stability, I assume it's because of reduced drag at the leading edge, anyway, it just seemed to be more controllable. BTW, I'm a halfa** 3D flyer!! I can do knife edges, inverted circuits and a few other things all day long but nowhere near good enough for anyone to go out of their way to watch 😴 One of the main reasons for using the typical airfoil shape (other than added lift as you have demonstrated), is the fact that air will adhere to the surface much better and it will have a much lower stall speed than a flat wing, a flat wing will have a much higher stall speed unless you use more wing surface area, this means that designers are trying to keep the wing loading as low as possible. The best wing loading range with flat wings is similar to a glider and is usually in the range of 10 to 14 ounces per square foot of wing area. I'm not familiar with what wing loading ranges are with full scale airplanes in terms of weight per square feet of wing area, I simply use the airplanes recommended weight and balance envelope from the operators handbook to make sure it's safe to fly. Even the rounded leading edge of an airfoil plays a very important role in keeping the air attached to the wing. The amount of lift produced by a typical airfoil is fairly low but certainly noticeable, going with that principle alone will require a higher airspeed or airflow to produce a good amount of lift. The total lift component of any airplane requires aerodynamic lift (with a typical airfoil) and angle of attack, it's not one or the other, it takes both but that is for maximum performance and efficiency. The total lift component for a flat wing is really just angle of attack and typically will require more power for thrust when compared to a good airfoil design (as you have demonstrated in this test), efficiency and stability is very low with a flat wing. Try another experiment with the same airfoil shape like the first wing you tested but this time try it with the bottom of the wing parallel to the table, I think it will take a lot more airflow to produce much lift but it would be very interesting to see what the results are. Are you up for the challenge? Maybe do another video comparing no angle of attack to the other various angles of attack? Maybe you could figure out a way to make the wing so it will pivot on the vertical slide tubes that run on the vertical rods in the tunnel? That way you could use just one airfoil wing. All full scale airplanes have some amount of positive angle of incidence to keep the fuselage level in flight, this is because it has to take angle of attack into account and the angle of incidence is the angle between the longitudinal axis of the fuselage and the chord line of the wing. As for spoilers, I think a better way to demonstrate the effects of spoilers would be to use that same wing but with a small spoiler mounted to the top side like you would see on a real wing. Inverting the wing as you did here just shows how it performs in inverted flight. Could you try demonstrating how that would work? Another thing to note in regards to your setup is that you have the bulk of the air coming from your PVC pipe flowing over the top of the wing, there is less air flowing under the wing than it is over the top of wing, great for creating lower pressure on the top of the wing but it doesn't seem like an accurate approach because in flight, there is always an equal amount of relative wind on both top and bottom. Notice that you have better results when you position the wing to the center-line of the PVC pipe, that allows the same amount of airflow over the top and under the bottom of the wing at the same time. Please know that I'm am only trying to give you "constructive" criticism, I'm not downing your experiment or your efforts at all!! Again, great experiment and well done!! Keep up the good work!!
@cocemojoe10 жыл бұрын
That's a fantastic beginning, If you placed the vertical posts on the outside of the foil you could change the angle of attack into the wing giving you more than just flat flight but take off and landing. also you already have most of the RC equipment add a couple of rc flaps smoke generator and nozzles, maybe some threads on the surface, and possibly a tail.
@Anurag-re3qn Жыл бұрын
Plz tell me that vertical posts placing outside thing
@MultiGeesh8 жыл бұрын
ericinventor: You need a suction type generator which can produce more turbulent free air stream than the one you are showing. Your system is such that air is passing through the prop before it reaches airfoil. Such air stream is highly turbulent and does not give good results. Your experiment seems okay maybe because it is a video but in actual fact, the air is highly turbulent. For highly accurate result, let the air pass over airfoil first before reaching your propellers.
@ericinventor8 жыл бұрын
Thank you for the insight. I didn't think about that but it makes sense.
@fontunetheteller4104 жыл бұрын
Very good, but I think you should use slicker rods, there seems to be a lot of friction between your rods and pen caps when the wing moves.
@interprimus11343 жыл бұрын
may be a bit late), but if you change air wind direction in your tunnel, you will get significantly less disturbed air stream. try to use a smoke to visualize and see the difference when tunnel “pump” air and “suck”
@georges34877 жыл бұрын
Just what I was looking for, very cool.
@haydenborgic68883 жыл бұрын
How can you dislike this? It is informative if you don’t like it don’t click on it
@ronjones40697 жыл бұрын
Excellent project. keep on experimenting and sharing what you find. You are an inspiration to young upcoming scientists. great job,!!
@enriquelaya8 жыл бұрын
Very nice. It is a good idea to use the RC motor and speed controller on the tunnel. The video does not show if you used an air straightening section to eliminate - reduce rotational flow. Usually this is done through air guides aiming to keep the flow parallel to the longitudinal axis. Assuming you did not, the flow pattern rotates heavily around the longitudinal axis. This has serious limitations on the type of experiments conducted.
@aryanKumar-zo9dq3 жыл бұрын
Excellent example for lift force in aeroplane, thanks
@onehumanbeing78925 жыл бұрын
Hey, such an fabulous project, I am an 8th grade student and I’m trying to do something fairly similar but have a few questions. Where did you get such a powerful fan, my cheesy fan doesn’t seem to bring my styrofoam anywhere? And how did you manage to make the iron poles so perpendicular to the platform and parallel to each other, I tried my best to make them parallel but the styrofoam still gets stuck on the top. Thank you so much!
@vannwellmon77295 жыл бұрын
He used a brushless RC motor with a large propeller. For the poles hee drilled two holes in line with each other. The poles look to be held in place by bolts or possibly a weld. If you want to do something like this I would recommend 3-D printing, welding/metal, or wood for their structural stability.
@onehumanbeing78925 жыл бұрын
@@vannwellmon7729 Thank you so much! Helped me out a lot!
@vannwellmon77295 жыл бұрын
@@onehumanbeing7892 Sure!
@LeoA057 жыл бұрын
1st great job with the wind tunnel. Yes your explanation is semi-correct about Bernoulli. But 2 things, 1. the faster air on top of the wing reaches the trailing edge of the airfoil before the slower air at the bottom of the wing gets to the trailing edge causing a pressure gradient of low (top) and high (bottom) pressure. High pressure wants to go to low pressure (bottom wants to go to top) so the flow generates lift. The "reach the trailing edge at the same time" theory does not explain why flat plates can also be used as a wing/source of lift. 2. Remember Newton's third law, where there is an action, there is an opposite and equal reaction. So as the air from the top of the airfoil reaches the trailing edge of the wing 1st, the airflow is "thrown" downwards. Newton's law dictates an equal opposite force which results in lift.
@adric1374 жыл бұрын
He is a genius!great science fair project!
@vittorfl5 жыл бұрын
Wing chord down: airplane Wing chord up: f1 car
@Dobriden_dobriden3 жыл бұрын
clever design, well done
@aktiarawal19203 жыл бұрын
Well done gentleman
@rodolfocastro32224 жыл бұрын
Brilliant! Good job!
@erikvaros3 жыл бұрын
Great project!
@smashingpencils2 жыл бұрын
What a legend for thinking of this!! Amazing!!
@brianjohnson978010 жыл бұрын
This is a nice wind tunnel any chance of a step by step guide please
@KaushikSethuraman Жыл бұрын
Love the model. How did you make the wing? Or where did you make it from? You don't mention that in the materials section of your description too. Thanks.
@FollowFunk4 жыл бұрын
That's neat but having a tube that graduates immediately to a larger box is going to create some backdraft into the box I would assume which does not make it ideal for tests.
@alexm.78156 жыл бұрын
How did you make the airfoils?
@miguelangelvalderrama18083 жыл бұрын
Wow, that first wing looks suitable for my bicycle to ride at 345km/h.
@varun_a208 жыл бұрын
thanks a lot man... I did really well..
@ericinventor8 жыл бұрын
Glad I could help!
@brandon50587 жыл бұрын
ericinventor Hey got a question, does the airfoil need a specific size? Thanks buddy.
@bouzaradjeloul3629 Жыл бұрын
Thnx ..great idea
@wisepawn246 жыл бұрын
nice video.. sensible explanation of the Bernoulli theory.. keep up the good work.. the lift is also related to surface area of the airfoil..more lift with large surface area.. try experimenting with it..
@insethurdle888 жыл бұрын
if you point the last model at a steeper angle back it will fly not every wing was based on the Bernoulli's principle the Wright brothers had flat wings they where just pointed back at a angle and also the Bernoulli's principle is not exactly the way everyone thinks in the first model. the air does fly over the top faster but they dont meet up at the same time with the bottom thats why planes can fly upside-down...THE MORE YOU KNOW
@jordan81808 жыл бұрын
Very true, I was taught this in college but it's a myth!!www.grc.nasa.gov/www/k-12/airplane/wrong1.html
@isaiahphillip41127 жыл бұрын
Bernoulli's principle in relation to aerodynamics is not wrong, it is however not the entire story. An angled flat board flies because of it's high angle of attack. Air hitting the underside meets a much larger cross section of "wing" and is slowed more, resulting in the higher pressure that allows it to fly. As well, more air is directed downwards (downwash) and Newton's third law dictates that there must be an equal and opposite reaction to this air being forced downwards i.e. lift.
@insethurdle887 жыл бұрын
Jordan Meneilly you taught what in college?
@insethurdle887 жыл бұрын
Isaiah Phillip right i agree im not saying Bernoulli's principle has nothing to do with how a plane gets lift im just saying its not the only thing the angle of attack is like sticking your hand out a car window, the hand gets pushed up and at the right angel of attack it goes up also. thats why planes can fly upside-down, the top front curve of the wing gets pushed back. i argue with my high school physics teacher all the time about it.
@isaiahphillip41127 жыл бұрын
insethurdle88 It's not just that Bernoulli's principle has something to do with it, it has nearly everything to do with it. Otherwise our wings would just be flat boards. Obviously a flat board can fly when it reaches a high enough angle of attack, due to Newtonian lift and Bernoulli lift (air ramming into underside, higher pressure, yada yada) But we maximize that lift by incorporating the aerofoil/camber into the design of our wing. Newsflash, aerofoils can generate lift at a zero degree angle of attack. A flat symmetrical board cannot. Upside down planes (assuming they have a conventional camber) produce lift downwards, but when you're upsidedown that Bernoulli lift can be offset by Newtonian lift if you have a high enough angle of attack.
@sohamwadekar9199 Жыл бұрын
Hey man... I liked the model and I'm making a similar one I just wanted to know what is the material you used for the aerofoil, is it very light ?
@ericinventor Жыл бұрын
Yes it is pink styrofoam, you can also use insulation foam
@varshinianand21448 жыл бұрын
great video mate!!
@bitsurfer01016 жыл бұрын
In the spoiler convention, could you put a scale under to measure the downforce or inverse lift?
@shadowwsk35075 жыл бұрын
You shouldn't use propeller to accelerate the air The air generated by propeller is in a spiral motion
@KDVSmith10 жыл бұрын
Sick Erio!
@AerialPhotogGuy6 жыл бұрын
BTW, I have subscribed to your channel and I realize this is an older video but on KZbin, they live forever :-)
@Nixonvideos14 жыл бұрын
Well done, nice video. If you add some digital scales under the wing when it is upside down you can work out the amount of lift......dont ask me how though🤔, someone else on here will be able to tell you🤣
@GuyneeseBullDog8 жыл бұрын
does it matter how many propeller blades there are?
@g_a_b_r_i_e_l_5 жыл бұрын
Have you tried using an EDF?
@whythis...19529 жыл бұрын
Super super very nice...
@jarnoclaeys69838 жыл бұрын
Hai, I like your build, I have a similar project for school but i need a propeller where did you buy the propeller in the vid?
@jesusmedina67227 жыл бұрын
Wow thank you!
@whythis...19529 жыл бұрын
Very nice...super.
@dibyaprasetyowardani9127 жыл бұрын
Can you share how to make hole in airfoil?
@AkashBidwaik7 жыл бұрын
AWESOME.....which material did you use for the aerofoil?
@kondagorla.susmitha17ug265 жыл бұрын
foam
@victorbarrachinarodriguez625010 жыл бұрын
I've seen your wind tunnel... that's amazing! But I want to ask you a questions if you can... How much power does your air generator has? thanks friend :D
@ventureintotheknown4 жыл бұрын
he never replied. this is so sad.
@Boeing-ER-jy9vq6 жыл бұрын
good video thanks
@wojtekdobrowolski80845 жыл бұрын
Air on the upper surface of an airfoil arrives to the trailing edge in way smaller amount of time than air on its lower surface. I linked two GIFs depicting that. www.av8n.com/irro/animation/prosmo015.gif upload.wikimedia.org/wikipedia/commons/9/99/Karman_trefftz.gif
@whythis...19529 жыл бұрын
Very nice...super
@carlosboatingfishing12265 жыл бұрын
Hey just wondering, where did you get the wing from, or how did you make it. I am doing a similar project and would like to know. Thanks
@ericinventor5 жыл бұрын
I used regular styrofoam, you can pick some up at Home Depot. I sanded it into a teardrop airfoil shape by hand.
@AIWithShrey4 жыл бұрын
What material can you use for the airfoil?
@JustRicardoNL3 жыл бұрын
I was wondering do u have some measurements for this wind tunnel I want to reproduce it
@ericinventor3 жыл бұрын
Unfortunately, I dont have exact dimensions. But I think the box is about 12x14x16in. Pipe is 6-8in in diameter
@JustRicardoNL3 жыл бұрын
@@ericinventor thank you so much!
@JustRicardoNL3 жыл бұрын
@@ericinventor 1 more question, what kind of brushed motor is that? I am trying to recreate sort of the same wind tunnel for my school project.
@andinovrizal49963 жыл бұрын
what kind of airfoil is this and what digit series?
@ericinventor3 жыл бұрын
Andi I made it out of styrofoam by sanding it by hand, so it has no official digit series
@nurulahadakil5 жыл бұрын
did u measure pressure up and down side?
@alexm.78156 жыл бұрын
Do you have the exact measurements for the materials?
@ericinventor6 жыл бұрын
Sorry I dont, but ideally your test chamber is actually a smaller diameter than the wind tunnel, which increases the flow velocity. But you will need a large motor.
@leozmidnitemaurauder3877 жыл бұрын
hey eric i was wondering what size propeller and what size pvs pipe did you use, and what are the acrylic sheets for?
@ericinventor7 жыл бұрын
LeoZ MIdNITEmaurauder I bought the PVC pipe and acrylic sheets at Home Depot. The PVC pipe is 6 or 8 inches in diameter
@leozmidnitemaurauder3877 жыл бұрын
thnx
@Zebussa4 жыл бұрын
Where did you get the toggle switch?
@varun_a208 жыл бұрын
Can we use a 7000 rpm motor?
@lambeefbiryani085 жыл бұрын
What the material do you used to make an airfoil?
@ericinventor5 жыл бұрын
Packing styrofoam
@GuyneeseBullDog8 жыл бұрын
can you list the specs of what you used
@bhgffgig23926 жыл бұрын
Hi where did you find this fan and this motor?
@kteddyrusmaya30457 жыл бұрын
how to make airfoil balance?
@niccidaly9455 жыл бұрын
What size sheets did you use?
@eliaselkhoury458 жыл бұрын
just a question what did u use to create your wing what fabric?
@ericinventor8 жыл бұрын
I used pink housing insulation foam. It is easy to cut and sand
@kababudas41574 жыл бұрын
Simple example
@vlatkopopovski26852 жыл бұрын
The authors have two wrong scientific approaches: researching the creation of Lift force and Low pressure at upper side of the wing, relative to the ground surface and Earth. I explain the aerodynamic cavitation and existence of Lee side aerocavern, and creation of Aerodynamic force.
@criollocustoms Жыл бұрын
Good job. Too much friction but still a nice experiment
@CrobinHood8BitGuy Жыл бұрын
It probably would have helped if he used wd-40 on the rails.
@criollocustoms Жыл бұрын
@@CrobinHood8BitGuy Nopp, it's about the rail angle!
@CrobinHood8BitGuy Жыл бұрын
@@criollocustoms ah, that makes sense.
@LoneWolf-nc1ch8 жыл бұрын
another question. how did u make the stand for the wing?
@ericinventor8 жыл бұрын
It was not easy. I had to do lots of fine tune adjustments so it could slide easliy. It is made of two aluminum bars mounted through two parallel aluminum plates. Use a square to make sure everything is perpendicular before you let the glue settle
@ericinventor8 жыл бұрын
Or possibly a better method is two separate the two aluminum rods with a block of wood along the entire length of the rod to ensure they are parallel, clamp that in a vice, and then glue on a base to the bottom
@LoneWolf-nc1ch8 жыл бұрын
thx. ur idea worked in my project1! :)
@kkumar857 жыл бұрын
do you alsosell this project??
@theaircraft68 жыл бұрын
how much rpm or kb is the motor?
@wc16927 жыл бұрын
What is the brand of your servo tester?
@ericinventor7 жыл бұрын
Its an E-sky servo tester. (very cheap)
@varun_a208 жыл бұрын
hey is there any alternative material that I can use to make the airfoil with please help me out!
@ericinventor8 жыл бұрын
yeah you can use very thin balsa wood also. Cut out many airfoil shapes to form the ribs of the wing. Then lay a sheet of balsa wood over and glue it to the ribs. Wet the wood so it bends. It is a more complicated process though
@varun_a208 жыл бұрын
Some thing simpler and balsa wood is not available here in india
@ericinventor8 жыл бұрын
+VARUN FC oh ok. try to get a hold of any type of foam you can. if not then maybe try aluminum foil. fold it lots of times in the front to make the teardrop shape. then wrap the whole thing with more aluminum foil. maybe it can work
@varun_a208 жыл бұрын
+ericinventor ok what about thermocolee ... Will it work?
@ericinventor8 жыл бұрын
+VARUN FC yes that should work fine. its just like styrofoam
@jasondavidvailoces91997 жыл бұрын
I need you help bro, can you reply to my comment the dimensions of this project pls? Thank you for this will help me for my project also
@kkumar857 жыл бұрын
do you also sell this project??
@mdjasimbangla28876 жыл бұрын
very good?
@brandon50587 жыл бұрын
Hey eric, what sizes do you use for the airfoil?
@ericinventor7 жыл бұрын
Niet praten 020 what do you mean by that?
@brandon50587 жыл бұрын
ericinventor arent there any specific sizes for the wing you used?
@ericinventor7 жыл бұрын
Niet praten 020 I didnt use any specific sizes, I just drew an airfoil profile and replicated it with the foam slab.
@brandon50587 жыл бұрын
alright thanks
@monishrajraj67146 жыл бұрын
Whats the rating of that fan bro??.......
@ericinventor6 жыл бұрын
Its 12V 12T brushed DC motor
@monishrajraj67146 жыл бұрын
ericinventor thanks dude.... Can I get that motor on Amazon??
@ericinventor6 жыл бұрын
Monishraj Raj probably, I got it an an RC hobby shop
@jackguest2398 жыл бұрын
How many rpm is the motor
@ericinventor8 жыл бұрын
It is the Titan 12T brushed motor and it runs around 22,000 -23,000 at 7.2V
@prophetic1254 жыл бұрын
motor from traxas
@cod_cape54835 жыл бұрын
Awesome, but here’s a tip, allow for more room In between the rod and the airfoil to slide more smooth
@snoopah30772 жыл бұрын
make a tutorial
@AJ-gy2pb7 жыл бұрын
Great video, however, there is one thing you should know, it is an extremely common misunderstanding that Bernouilli's Principle works because the air molecules on the top and the bottom have to get to the end at the same amount of time, but this statement is entirely false. The reality is that the air on top is compressed between the air above it and the wing below it, so its velocity increases, basically, it's like putting your thumb on the opening of a gardening hose, the same amount of water has to get through, but through a smaller aperture.
@maxdelater33695 жыл бұрын
But Bernoulli's principle doesn't really apply on wings. Think of a plane flying upside down: according to Bernoulli's principle the plane should not only fall from the sky but even create upside down lift. Also Bernoulli's principle doesn't explain why the angle of attack has such a big impact on the lift an aircraft produces. These are just some of the simpler to understand arguments for why Bernoulli's principle isn't the thing that creates lift for an aircraft. I'll just leave it with this, because I don't want to say anything wrong with the other arguments.
@shannongibson3258 жыл бұрын
you can do it yourself ,just go to inplix page and learn how to make it.
@jordan81808 жыл бұрын
Incorrect lift theory #1, Bernoulli's isn't how airfoils generate lift Good vid tho
@isaiahphillip41127 жыл бұрын
The two leading theories describing the production of lift by an aerofoil are Bernoulli Lift and Newtonian lift, they are generally said to both by contributing factors. What do you think is wrong with what's is said in the video? If you're going to criticize him, you might aswell at least say what he's doing wrong so he can improve.
@ghostzart7 жыл бұрын
He's in high school. Cut him some slack...
@wonrivas6 жыл бұрын
Jordan Meneilly yes it is
@yashwantmente92936 жыл бұрын
My take on it is that bernoulli's principle is applicable only along a streamline and not between two streamlines. So, it is incorrect theory to describe lift. I don't know if it is correct though.