"I'm so bad at drawing, I can't even draw the curtains on a cold night".

My grade 9 draft teacher (yes, before CAD, we had draft classes) worked on the Avro project. And one small correction, the craft used three jet turbines, not one. He actually showed original blue prints of the prototype.

I love the way you communicate information, you give us the facts and examples with a little tongue and cheek fluidly. Always gives me a smile... Cheers

Thanks for your videos. I appreciate your effort in making them. They are well planned and thought out for easy understanding.

Brilliant.!! Thanks for sharing Bruce, It was so interesting, educational and humorous. I look forward to your findings using the ducts on a quadcopter. Keep up the good work..

Love your presentations and your personality. You make such complicated subjects so easy to understand.

Thank you so much for those videos and for the time and effort put into them.

Love your videos Bruce. Thanks for explaining things in such an easy to understand way.

This is the 4th video of yours I've watched. I LOVE finding great new teachers with YEARS of content just waiting for me :)

Thank you for sharing your knowledge Bruce!

I really appreciate your knowledge and the clear way you share it.

Great job of explaining a complex system in a simple manner. Your graphics are good! Thanks!

Very, very informative video. Thanks for the great work!!!

Absolutely fascinating...Thank you again.

A good explaiination how ducts work. Thanks for posting!!

very informative and easily explained. keep up the good work bruce... just love your videos...

Excellent video and explanation.

Very important information! Thank you!

Thanks for the video! It was very instructional and entertaining.

Super awesome! Thank you and Best regards from Bavaria!

Thanks for taking the time to do this Bruce. Really interesting.

Thanks for the very helpful explanation!

Perfect. I wanted to make a floating sign that didn't move very fast... Sounds like the self stabling is exactly what I need.

Excellent explanation of these effects on movement on ducted systems. Well done sir.

Great stuff, cheers for your work!

Nicely explained, thanks Bruce.

Great video Bruce :) Whiteboard videos are awesome and 100X better than school and more informative!

Rally interesting and inspiring. Thank you! More of the same please!

This is awesome yet simple information. Thanks

Very interesting. Thank you Bruce.

I'm a hovercraft (ground effect vehicle) enthusiast. I've always been mystified as to why the flying platform never succeeded. Thank you for this explanation. Please know that ducted fans are extremely popular among hovercraft designers as horizontal thrust fans. They provide a framework for protective screening that prevents fingers or large objects from contacting the propeller blades as well as the superior performance.

Another very informative video, Bruce.

Very interesting bruce,i cant wait to see your video of them in use,i do enjoy your channel

Thanks a lot, Bruce!

Thanks for that, Bruce!

Thanks for posting this interesting video.

Thanks for clearing that up! :)

so much budget spending experimenting with this, but they did recoup some r&d when it was directly applied to VTOL craft. thank you for explaining in excellent detail (without math!) how the deign functioned and why it was a fail :)

Thanks a lot for that Bruce, very interesting.

Great explanation! Plain and simple aerodynamic lesson that explain why elicopters are and will be much better all round flying crafts that multirotors or any ducted fan configurations...

Awesome explation 👌 thxxx mutch 🍀 and lovely greetings from Germany 😘

great info thanks Bruce!

Nice bit of info and also history stuff =D Cheers Bruce!

someone need to do a video compilation on all he times you say "brilliant" in your vids! haha loving the vids mate. very informative

Thanks for the explanation.

Thank you very much for this video. This video will be very useful for our model satellite team. If we manage to do it it is basically free stability and thrust.

Another great video. I can se this used on larger slow flying video quads.

very helpful! thanks so much!

Thanks Bruce. I am so curious to see how your ducts work out. Especially on a miniquad

The Bell X22, if I recall correctly, resembled a quad with a tail attached to it. Had 4 tilting ducted fans and operated much like the V22 Osprey does today. It was intended to have V/STOL capability but it was much too finicky. It's a shame only two were ever built though, was a beautiful aircraft.

Very, very interesting. Looking forward to see testing results of thoses ducts on a Miniquad =)

Very interesting video Bruce! I think there might be a similar, although less dramatic effect on bare propellers. Not sure what it is, but if you think of the rotating blades as a disc, the rear blades have air being pushed out towards the blade tip whereas the leading edge of the disc gets air angled in towards the root.

Excellent video my friend!

Its a very kind of you sir, thanks :)

Amazing video!

Great video thank you!

Fascinating!

You're awesome. Even better than the Discovery chanel. Hope there will be a second video about the antennas.

really nice video, i hope in the future you will make more technical/historical videos of some other topics

I'd love to see a sort of "drone trailer" that used one of these ducts and is simply a pull-behind for a quad that provides a huge battery bank.

I have just gone back to electronics as a hobby after a 51 year break. I was rather shocked to find that any mention of fans for cooling is almost taboo. I like fans. Heat governs the life of an electronic component. However the fans that are used for PC's, power supples and servers etc. are ducted but have large tip clearances, any thing up to 3mm on a 60mm dia fan. It would cost no more to make this gap 1mm. Maybe they should watch your viseos. Thanks for confirming what I had already guessed, it's just logic. I'm subscribing - great channel

very interesting. a bit of science and history!

Great video..

I guess it shows I'm not the youngest to admit I like your whiteboard videos the most. Thanks for the explanation, Bruce.

Thank you Professor Bruce, that was very helpful and explains a lot, there is a 4x ducted fan quad on youtube somewhere, i will look and post link if i find it. Cheers,;-)

Nice explanation!

great job

Good video, thank you.

great video

Hi. Thank you for this very interesting video. It makes me think about turbofans wich are, in my point of view, a mix between a jet engine and a ducted propeler as 80% of the air taken from the intake is not going in the compression chamber but merely propulsed thru an outlet vain and the edge of the turbofan have a shape for generating some coanda effect.

Bruce, Did you ever record a video of the thrust stand performance of a ducted vs. unducted propeller?

Thank you so much for the video. I think Mr Tesla figured this out. Let me get back to you on how to make it work.

Brilliant!

Thank you for explaining that. As a young boy I bought a flying model called the flying platform

Great vid Bruce, and bonus points for mentioning the AVRO flying car! Recommend watching the entertaining made-for-tv CBC movie 'The Arrow' with Dan Ackroyd

;you make awesome videos

It will be interesting to see the operation of Blade's Inductrix Quad. They are positioning it as a beginner's quad. It scheduled to come out in the USA in less than 3 weeks.

Great video :)

5:44 "it was too stable" holy Zephyr

In Winnipeg, we have an Avrocar on display. It is really cool.

Have you done the test of ducted prop thrust vs non ducted prop thrust...very interested in the results.

best explanation ever

Super interesting. I wonder if they could have used some sort of air-distruptor fins coordinated with flight attitude to reduce the lift of the lower area thereby allowing it to stay tilted...

you are a genius sir

Wow, make a Elec version of that navy duct fan platform using a whole lot of lipo with one big brushless motor. Great for fire dept, Search and rescue, Police, hunters, or recreation. Some time you just need that small jump and leap that ladders or crane can not reach and helicopter are just to big to get into. Like, Two Thumbs up.

Like in the previous video, invoking the Bernoulli effect only confuses the issue because it's the vehicle that's moving, not the air. The forward edge of the duct is traveling at the exact same speed as the trailing edge. Since there is no air speed differential between the two surfaces, there can be no Bernoulli effect. But there is a difference in the Coanda effect between the two surfaces. As you point out, it's increased on the leading edge and diminished on the trailing edge. In effect, the trailing edge was stalling because of the steep angle of attack. It was designed to attack in an upward direction, not in a forward direction, so unsurprisingly, it fails to perform well going forward. They could probably make it work by adding a small airfoil above the shroud directing air downward into the trailing half of the duct. An airfoil at that position could be adjusted to have the correct angle of attack and compensate for the loss of the Coanda effect. Of course, with the pilot exposed they don't have many opportunities to reduce drag by creating a slipperier vehicle envelope so the speed is always going to be relatively limited. But they should be able to get it to go as fast as a motorcycle.

Thanks!

Brillant!

I think they could have used variable geometry lip to manipulate amount of lift generated on any part of the lip and directing the thrust in that fashion

Really interested to see how it will perform in practical tests

Another good video, but the one of the problems with the Are Car was it would not hover higher than two feet above the ground.

Perhaps the 1960s was a great time to be in aviation. But I'd argue the current era is just as exciting with far more advanced rapid prototyping and simulation tools now available to every hobbyist.

Thank you

Sounds absolutely perfect for a hovercraft

You're teasing me! I wanna see!

It would have been interesting if they had implemented a way to modify parts of the lip. So if the platform was tilting in one direction, then somehow the lop on the opposite side could be changed.

Great informative video, thank you Bruce. I was thinking about a successful use of fast, horizontal travel using vertically ducted fans, Hovercraft! Using lateral thrust to propel, they have proven that they can still provide sufficient vertical lift even when enduring horizontal wind forces, I only wonder how much lift they can provide when used in aircraft in the same instance, when a pressure enhancing skirt is not applicable. Will it still provide vertical lift, or will lateral air forces kill lift? If it does however provide lift, then the Martin system may use lateral propulsion?

I love this guy 😄

Great video! Very educational and easy to understand. Question. What are the effects of a double rotor stack with each rotor turning in opposite directions? With the duct and with out. Thanks!

Very interesting video. Thanks Bruce keep them coming. ps how did you crack the left lens in your glasses?