Types of Rotor Systems in Helicopters

Рет қаралды 151,862

Helicopter Lessons In 10 Minutes or Less

6 жыл бұрын

Welcome back to Helicopter Lessons in 10 Minutes or Less!
Check us out on Facebook for more Helicopter videos! / 10minlessons
Check out my ebook covering this and more! Get your copy on iBooks: itunes.apple.com/us/book/id144...
or on Kobo for Android, Windows and Desktop users: www.kobo.com/us/en/ebook/heli...
Want to buy me a beer or coffee as a thanks? www.paypal.com/cgi-bin/webscr...
This video's topic is covers the types of rotor system designs. I decided to make this video after getting multiple viewer questions seeking clarity on the differences of these systems. That said, keep the questions and comments coming and make sure to hit like and subscribe!
In this video I cover the 3 basic rotor systems: Rigid, Semi-Rigid, and Fully Articulated. During the early stages of helicopter design rotor systems were rigid. This meant that blades, hub, and mast were quite literally rigid and had very limited movement. The blades could rotate and feather and that was just about it. But, as we know blades must flap and feather to compensate for Dissymmetry of Lift (for more detail on why that is, check out my video here: • Compensation for Dissy... ). In this system, the stressors of this flapping have to be absorbed completely by the blades themselves. To make matters worse, airfoils at the time were designed of lightweight metals like aluminum. So you can only imagine how long this metal held up after flexing up and down repeatedly like a tin can.
It wasn't long before engineers realized how to improve upon this system and a Semi-Rigid system was created. This system, also referred to as a "teetering" or "seesaw" system, incorporated a horizontal or "flapping" hinge. With this in place, the blades themselves no longer had to absorb the stresses or flight. The system could absorb the stresses of Flapping instead. However, this system had a limitations in low G flight and conditions of full cyclic displacement (like slope landings). The system could encounter "mast bumping" which is where part of the rotor system could collide with the mast and, if severe enough, could cause complete rotor separation. Although this doesn't prevent flying, it does limit capabilities and maneuvering of the helicopter.
In the process of constantly evolving rotor systems a Fully Articulated system eventually came to be. This system allowed each blade to flap and feather (aka articulate) independently. The system overcame mast bumping and introduced the concept of "blade hunting." Due to the Law of Conservation of Angular Momentum or Coriolis Force, as a blade flaps upwards, it tends to speed up. This is because the mass of the blade gets closer to the axis of rotation. An easy way to think about this is a spinning figure skater who brings her arms in and speeds up. Vice versa, as her arms extend outwards she slows down. The same thing happens to rotor blades as they flap up and down. Well this is one more point of stress on the blades and a fully articulated rotor system counters this by allowing blades to hunt via a vertical or lead/lag hinge. This ability of an articulated rotor system to absorb the stresses of feathering, flapping, and hunting increase blade reliability and blade life.
All 3 systems are continuously being updated and upgraded and can still be seen today. Red Bull's BO 105 helicopter uses a rigid system because it is the most agile and responsive systems in the world. It's blades are made of fiberglass composite materials that don't wear down like those in the tin can example. The semi-rigid design is one of the most prolific systems worldwide and can be seen in helicopters from the original UH-1 Huey to the modern day Robinson R22. Fully articulated systems are seen on many military and law enforcement helicopters like the AH-64 Apache, the UH-60 Blackhawk, and MH-6 Little Bird. A big takeaway is that rotor systems are always evolving and incorporating more and more composite materials to reduce weight, increase reliability, and improve performance.
That wraps up rotor system design. If you enjoyed the video make sure to hit like and subscribe. Also, don't forget to leave your questions and comments below!
Thanks for watching! As always, safe flying!
If you enjoyed the video or have any questions or comments, hit the like button and comment below.
If you're just getting started and want more information, pictures, and more explanations, I'd recommend reading the Rotorcraft Flying Handbook - amzn.to/2ifPlnZ
If you've already got a basic understanding, and want to further your professional helicopter education with advanced helicopter concepts, I'd recommend reading Cyclic and Collective, by Shawn Coyle - amzn.to/2ifQGLx
Video and music editing were done via the Splice app.

Пікірлер: 169

@ddtddt8493 6 жыл бұрын

Someone said that a true expert is he who can explain his knowledge to the average Joe...and average Joe understands. My hat off to you sir.

@imachavel 2 жыл бұрын

Feather, flap, lead and lag. Think of how difficult a helicopter is to fly vs a plane to begin with. At least in concept. 1 control for each axis? A cyclic, collective, and anti torque pedals vs a yolk? Translational lift? Settling with power? Dynamic rollover? Auto rotations? LTE? No airplane pilot must deal with these concepts. Dyssemitry of lift? Omg advancing air vs retreating air? But rotor systems that allow the angle of attack of blades to change on their own by the blades leading, lagging, feathering and flapping solve the issue of angle of attack for the pilot. The pilot controls the direction of the blades and does not have to position the aircraft in a position the way an airplane pilot does just the pitch and position of the blades. The blades being able to bend and flex on their own means the helicopter will not flip over. A pilot can hover which you cannot do in a plane. More control. But tougher to learn in concept.

@9numbernine 3 жыл бұрын

2 am, husband already asleep.. and here I am, learning about helicopters. Thank you.

@yelectric1893 3 жыл бұрын

Real helicopter hours

@chucksdesk 2 жыл бұрын

I would love to see a “differences” video on controls and what they do with conventional vs tandem rotor helicopters such as the chinook. I enjoy your instructional videos. I am a retired airline pilot with no helicopter experience but was always fascinated with them.

@danielhahn55 2 жыл бұрын

this is an exceptionally good video. I'm a helicopter engineer and learned so much right now. thank you so much!!

@SomeDude-dq1uu 6 жыл бұрын

Thank you for posting. Good clear explanation helped clear things up for me.

@abdullahmswt7983 6 жыл бұрын

I really like it. Thank you for your time.

@kanamekiyru 5 жыл бұрын

Was able to get a 3 page paper done just watching this video. Very detailed

@heathbarnett3451 6 жыл бұрын

Love your videos! Thanks for making!

@shalakakapure7436 5 жыл бұрын

Omg you are so amazing. Thank you so much for this detailed yet short video♥️

@nclltd9786 6 жыл бұрын

Excellent short lessons, keep up the great work! :-)

@davidwallace5738 6 жыл бұрын

As usual.....loved it ! Thanks for your time and effort in putting the lessons together for us.

@MachTuck 2 жыл бұрын

Another great video/explanation! You are the man Jacob!

@Power5 3 жыл бұрын

Looking to get all my knowledge to fly a helicopter in less than an hour. So glad I found this channel to help me with my goal. Interested to see first helo that can fly inverted and maintain level flight for a moment.

@Big.Ron1 2 жыл бұрын

Thank you for this. It really helped my understanding of the differences. Be safe.

@moszczynskieng 5 жыл бұрын

Great video!

@melo_4291 3 жыл бұрын

Excellent video! Thanks for the explanation!

@collin4592 2 жыл бұрын

There is a nice old school video on youtube about mast bumping for the uh1. Also thank you for the videos! They most certainly help my learning style.

@Jason-td1gu Жыл бұрын

You are REALLY good at explaining things! I found your channel while trying to find an answer as to why the helicopter in the game I'm making isn't banking correctly (I have the physics wrong somewhere). I haven't quite find the answer, but I've learned so many other things already. Thanks for making these types of videos!

@ahmadabousetta 6 ай бұрын

Great explanation. Thank you.

@estebanvializ9985 5 жыл бұрын

Thanks Jacob. It couldn't be explained better.

@darioinfini 6 ай бұрын

Awesome. You filled in a gap in my understanding about why a lead/lag pivot was there in the first place. Well done sir!

@nickpepper4592 3 жыл бұрын

Great lessons man.

@peterc5680 4 жыл бұрын

What a genius, a+ my man

@claudiamartinezorozco7902 4 жыл бұрын

Thank you so much for the video, it was really helpful!

@freezatron 5 жыл бұрын

Teetering rotor heads lead lag too, Semi rigid is not the right term for a teetering head, semi rigid rotors have a heavily damped articulation and modern day rigid rotor heads have elastomeric hinges to relieve the loads on the blades, anyhow :)

@mariojorgepiresdasilva9956 3 жыл бұрын

Good vídeo 👍🏾🚁

@evangelosgeraniotis114 6 жыл бұрын

Your videos are great. They make their point clearly and are easy to follow and remember. I look forward to each new one you produce. If you are looking for new topics, in ground hover vs out of ground hover would be a good one to review. Keep up the good work.

@helicopterlessonsin10minut10 6 жыл бұрын

Evangelist Geraniotis. I'm glad you enjoy them. I actually already have a video that covers IGE vs. OGE hovers in my "Airflow at a Hover" video. Here's the link: kzbin.info/www/bejne/jYe8op2EjsyUm5o. Thanks again!

@rayrayhehe1955 2 жыл бұрын

mate you are a lad, i love your videos

@gurjantsingh6647 4 жыл бұрын

Good lesson

@DaleDirt 2 жыл бұрын

Great job Thank you , very well said .

@humortangelo3975 6 жыл бұрын

Great videos! Wish there was a video game version.

@matthewrossilini5808 2 жыл бұрын

Awesome video man. Would be really cool if you could do a hands on demo with a real rotor head. I used to work at a machine shop and i routinely inspected rotor head components of the H3 helicopter, which despite being designed in the 50's, was fully articulated. A truly amazing design by the engineers. The blades can move in all 3 axes, cycling each rotation at 300rpm. If I still worked there I'd be willing to get some hands on video for you but I don't

@diegoplata5570 Жыл бұрын

best explication I have found.

@ottoroth9377 Жыл бұрын

I flew UH1's in the Army......the semi Ridgid Rotor design was far better handling than the old Bells we started out in. I imagine the higher end models you see today has the articulate system! Would love to fly one of those Corporate Cadillac's!

@joeferretti3521 4 жыл бұрын

Love the intros

@88rosomak61 3 жыл бұрын

What is the difference between those systems you presented and the Lockheed gyro rigid rotor used in AH-51 and AH-56?

@BeKindToBirds 2 жыл бұрын

0:00 saw an apache do this kind of drift onto the parade field as everyone was staging for the change of command. Wasn't as oblique and angle or as fast but he came in like this and then swung the tail around in a drift and arrested his movement all while dropping altitude to the deck. Landed about 30-50 meters away from the head of the entire division marching onto the field. Turned everything with jet and rotor wash and made the whole formation instinctively pause in a completely animal way you may recognize from combat or ...animals. Anyway even the first sergeant had about three seconds of brain reset time before yelling for everyone to keep moving and this is the 101st Airborne so we all have seen helicopters doing stuff before lol. Anyway sky monsters are scary but I'm glad the scariest ones are ours. Can't wait to see what the FVL generation matures into. The SB-1 is already crazy impressive.

@addisugebremichael3496 Жыл бұрын

thank you brother

@rubes3927 Жыл бұрын

For anyone interested, the AS365 Dauphin, EC135 and 145’s are other examples of helicopters using rigid rotors 😁

@blackbirdpie217 4 жыл бұрын

As the blade flaps their mass is getting closer to the axis of rotation, not the point, It is rotating up and down at a radius from the point so that actually never changes.

@964cuplove 4 жыл бұрын

Could you do a video on the servo flap driven blade controls as in the kaman k-Max ?

@mrkushdgr8 5 жыл бұрын

Sir, Your videos are very interesting and imparts lot of knowledge. Thank you for the creative explaination.

@larrywhalen596 2 жыл бұрын

Although I appreciated your description of the various rotor systems, I would also have greatly liked to have seen the actual schematics and maybe even a physical example of the items; trying to view these systems on the internet only results in hundreds of redundant examples over and over which ends up with me becoming irritated and finding something else to do. I presently own a vintage Bensen B-8M (in glider configuration only for right now until I install Subaru in it for power). What I'm looking to do is to utilize a three-blade system but don't know how to get all three blades to function the same as a two-blade "teter" system and any information would be Greatly appreciated, Thank You. In the meantime Thanks for sharing the information which you've already posted.

@helicopterlessonsin10minut10 2 жыл бұрын

I try to keep this to the basic level that a pilot would need to do. Many engineers work with those schematics but the average pilot doesn’t necessarily need to know the precise blueprint as much as how the systems differ for flight.

@arjotsingh7357 2 жыл бұрын

@@helicopterlessonsin10minut10 Can we have a four blade rotor system with teetering system?

@gavinf5155 3 жыл бұрын

this helped so much....my textbooks couldn't help me....thank you

@glennsilva727 6 жыл бұрын

Hi Jacob, Great videos, could you please upload a lesson on the Power Required Curve and LTE? Cheers.

@helicopterlessonsin10minut10 6 жыл бұрын

Glenn Silva. Sure thing. I'll add it to the list.

@arjotsingh7357 2 жыл бұрын

@@helicopterlessonsin10minut10 Can we have a four blade rotor system with teetering system?

@randysonnicksen9475 Жыл бұрын

As I watch videos of helicopters accelerating away after take-off, it seems that there is no noticeable change in angle between the fuselage and the blades as forward cyclic is applied. Does the rotor system (fully articulated) transfer pitching moments to the mast (and thus the fuselage) when cyclic is used, or does the fuselage truly hang from the hub like a pendulum. If it's the pendulum case, that would imply that the only reason the fuselage pitches forward is because the CG is below the hub, and the CG is being "dragged" by the rotor hub. The way you drew your fully articulated rotor, it would seem possible for the blades to impart a (pitching) moment on the mast, because the flapping hinge is a distance away from the center of rotation, and the centrifugal force of the rotor could imply a pitching (or rolling) moment on the mast. Obviously the rotors flap, but the fuselage seems to respond quickly to cyclic inputs making it appear that the rotor and fuselage are moving in unison. Any thoughts?

@stevetillson3268 2 жыл бұрын

May be off subject slightly, but a question for you that’s been troubling me since the first Huey Cobra presented itself in our unit of all standard Huey’s, Viet Nam, 1969: Noticed, even on a quick glance, the Cobra had no “stabilizer” bar. Seemed like pitch change came directly off the upper swash plate via 2 long pitch change rods. No more little pitch change links off a stabilizer bar like on our Huey’s. Because that Cobra was just refueling at our base, it quickly started up and flew off without time for this baffled “C” model Huey pilot to speak with that Cav pilot. What happened to the stabilizer bar (paddles) on now-ancient, 2-bladed, teetering-head heli designs? Thanks in advance from an old hover-lover from days long gone.

@adeladlewguben1881 5 жыл бұрын

Great

@cillersbadass7590 2 жыл бұрын

thank you

@ahnafahmad324 6 жыл бұрын

Semi Rigid is feathering and teetering Fully articulating is feathering, flapping and lead/lag

@Intrepid175a 3 жыл бұрын

Well, the rotor hub is teetering back an forth which allows the main blades to flap up and down so flapping is still going on. It has to or there is no compensation for dissymmetry of lift. What he doesn't go into is what's happening to the lead/lag forces in a semi-rigid rotor system. As the rotor blades are flapping upwards and the center of mass of the blade should be moving closer to the axis of rotation and trying to lead forward, the teetering rotor hub is actually moving the blade away from the center of rotation. These two motions counter each other and the center of mass of the rotor blade itself stays at or very near the same distance from the center of rotation (rotor mast) and thus there are no lead/lag forces to deal with. Likewise, on the side that's flapping downward, where the center of mass of the rotor blade should be moving away from the axis of rotation and lagging behind, the teetering rotor hub is moving the blade closer to the axis of rotation and again, the two motions cancel each other out and lead/lag forces are neutralized or at the very least, kept to a bare minimum so not lead/lag hinges are needed.

@mariotadeu1190 Жыл бұрын

muito bom

@vysakhanvysakhan6609 4 жыл бұрын

Hello sr.. really i like it sr

@mandeeps744 4 жыл бұрын

Impressive

@mrkushdgr8 5 жыл бұрын

Sir will you please make a video to explain Delta Three hinges and offsetting of pitch control arm off the plane. which is done to make the blade feather while flapping. It would be of great help as the bookish language isn't enough for understanding.

@helicopterlessonsin10minut10 5 жыл бұрын

Kush Upadhyay. I’ll add it to the list.

@YinYangDPW 8 ай бұрын

Which is recommended for a co-axial rotor system ?

@VerySeriousUser 3 жыл бұрын

Holy crap that intro music made me 20% more productive at work for at least an hour!

@funisnaked 2 жыл бұрын

Would you be able to invert a helicopter the way Red Bull does with any system other than the rigid system? Red Bull must use some super rigid blades to keep from slapping their tail?

@VacuousCat 6 жыл бұрын

Please explain the rigid-gyro system on AH-56 Cheyenne. :D

@helicopterlessonsin10minut10 6 жыл бұрын

CCCanyon. Well I haven't flown that one, and I'm sure not many others have before the project was cancelled. But I would imagine it would operate much like other rigid rotor systems. Sorry I couldn't be more help.

@jeremylakenes6859 Жыл бұрын

Now fully articulated blade systems compensate for blade hunting, but they are susceptible to ground resonance right?

@jdsaldivar2109 2 жыл бұрын

82ND AIRBORNE OH-58 Guy here...i would use a rubbing compound ( light) then a good polishing with " Rain Dance polish. Buff it out...pilots thought I was effing around with the N-1. Why is that Sir?? We are getting 5 more knots indicated airspeed!! I didn't last long but highly noteable. ( rotor blades of course)

@leoaero1948 5 жыл бұрын

The rigid rotor system also flaps because flapping is the only way a rotor system can compensate for dissymmetry of lift. Flapping is the up and down movement of rotor blades as they rotate...The main difference between these rotor systems is how they each allow Flapping to occur either through (1)blades flexing in a rigid system (2)blades flapping as a unit on a pivot point in a semi-rigid system (3)blades flapping individually about a hinge in a fully-articulated rotor system

@helicopterlessonsin10minut10 5 жыл бұрын

LeoAero19. Well said. That's what I was getting at by describing rotor systems instead of blades themselves. All systems flap to compensate for dissymmetry of lift. But each system absorbs the stressors of this in different ways. Thanks for the feedback!

@mornepetersen7003 6 жыл бұрын

Do you have a short explanation on why the design of the bell semi rigid system is different from the R22/44, i see the Robinson has a coning hinge but the Bell doesn't

@helicopterlessonsin10minut10 6 жыл бұрын

Morne Petersen. I don't claim to be an expert in either of those airframes. But from what gather, the R22's coning hinge allows each blade to flap independently while the Bell's rotor head is designed with a fixed, pre-cone angle resulting in the coning forces having to be absorbed by the blades. It all boils down to stresses on the blade. The coning hinge takes more strain off the blade than the fixed/pre-cone angle design. But some would argue that the Bell design is more responsive due to less hinges which can create sloppiness in the controls.

@mornepetersen7003 6 жыл бұрын

Helicopter Lessons In 10 Minutes or Less Thanks mate, these 10 min clips are great refreshers

@Ryzler13 5 жыл бұрын

Any video explaining the connection from turbine to rotor? Is it a clutch system or a bleed turbine system...how does it work? Thanks.

@helicopterlessonsin10minut10 4 жыл бұрын

It really varies by helicopter. The power turbine section of the engine is turned by combustion and is generally directly linked to the transmission. However, some helicopters (dual engine) have clutches that enable different power outputs from each engine.

@jaycal1920 4 жыл бұрын

Thanks, i was checking out Igor Negada's video of his GTD-350 helicopter turbine restoration. It was the gearbox which i was refering to but didnt know it. I couldnt work out how a turbine rotation translated to the rotor rotation. m.kzbin.info/www/bejne/Y5jIqIqvgc5ko8U I passed on the schematics i found, he is very apt at parts fabrication a little wasteful with resources but i think his hydrodynamic aerodynamic aptitude is equivelent to half a potato...thats been mashed.

@tristanwells007 Жыл бұрын

What category does the Lockheed xh51 and ah 56 fall into

@biblewaytolive Жыл бұрын

Does the AK 1-3 have a fully articulated rotor system?

@1001013 5 жыл бұрын

Thank you for your excellent videos, however, the use of the term ‘semi-rigid’ is confusing and I believe incorrect. Westland Helicopters (UK) have used the term for the rotor system used on the Lynx and Wildcat. Also, there is nothing rigid about the head on the R22 etc, semi or otherwise. Thanks again.

@Aviator168 2 жыл бұрын

Is there a fixed-pitch articulated rotor?

@keboletse 2 жыл бұрын

Would you advise me to do a rigid rotar system on a homebuild small helicopter?

@helicopterlessonsin10minut10 2 жыл бұрын

If you’re building one it comes down to materials and price. Semi rigid would probably be the most feasible.

@B.D.B. 6 жыл бұрын

I have to say I'm been looking for an explanation for a few days now, for *why* you would need flapping and hunting and this is the first video that explained it. Just one thing, is the flapping and hunting controlled by anything or is it just a passive hinge? If it's passive, does it has dampening or are the blades allowed to flap and hunt freely?

@helicopterlessonsin10minut10 6 жыл бұрын

B.D.B. Thanks! The flapping and hunting are passive movements that are a result of the forces acting on the blades. Because of this there are dampeners and droop stops to help keep everything under control.

@SkyBaum 2 жыл бұрын

Thank you #HLI10OL #SkyBaum 😃

@maninthemiddleground2316 2 жыл бұрын

Wow … you were in an Apache?? 😱 cool 👍

@helicopterlessonsin10minut10 2 жыл бұрын

Yep. It’s my day job when I’m not making KZbin videos.

@maninthemiddleground2316 2 жыл бұрын

@@helicopterlessonsin10minut10 wow … cool 👍 thank you for your service bro 👍 I just knew you’re in an Apache when I saw the rotor pod on top 😃

@ansaritariqoffical712 4 жыл бұрын

Sir plx suggest me the material through which I can make rotors at home

@crawford323 3 жыл бұрын

In Gyroplane, the semi rigid design has evolved and overcome the need for the lead lag hinge by under-slinging the blade at the hub. This is done by having a mast tower. This tower is typically two plates which extend well above the rotational point of the mast. This allows a swing motion as well as the see saw motion to occur. Ass the blade flaps up to dissipate the lift on the advancing blade, the swinging motion extends the blade outward to compensate for the stresses imparted from that of the Coriolis effect. As for as the progress of hub design, la Cierva’s bamboo rotor wings of his models only flew because of the flexibility of the blades allowing for the dissipation of asymmetric lift. Once a full scale version was built the craft rolled on take off. He then created the flapping hinge. This did not fix the problem Coriolis Effect induced stresses as you have sail lead to blade stress failures so he invented the lead lag hinge. All of these innovations were present in the Pitcairn rotor head as well as the ability to change pitch globally allowing jump take offs. Sikorsky was struggling with his rotor head design and became a licensed Pitcairn dealer at the suggestion of the US Government. Only then was Sikorsky was able to make his machine fly with acceptable degrees of control ability using a single rotor. Effectively Sikorsky stole the rotor head design and the Pitcairn family sued. Sikorsky was awarded government contracts and denied the lawsuit. This happened in 1941 and the lawsuit was not settled until the mid 70’s. The problems were solved more or less before Sikorsky flew in ‘41. If the helicopter industry de evolved itself in rotor head design, that I do not know. There is a great book by Dr. Bruce Charnov, Autogiro to Gyroplane, which tells the rich history of the first rotor winged aircraft. It is a good read, out of print but still available.

@skipperclinton1087 2 жыл бұрын

OK Mr smart guy, can you explain to me why the US Army used the 540 rotor system on 'B' model gunships in Vietnam and the difference?

@crawford323 2 жыл бұрын

@@skipperclinton1087 Mr smart guy? Really? Why the push back? I do not know what the 540 rotor system is. Why should I? I am just relating what I know is to be true about the very early development of the rotor systems and why certain elements came to be. The lead- lag hinges resulted from the change in the cg of the blade as they rose and fell. With out them, stresses on the root of the blade caused failures. The underslung nature of the Gyroplane simple style non powered type employed today and made popular by Igor Bensen found a way of relieving the vast majority of the stresses caused by the flapping motion. That’s it, end of story. I shared this because I expected those who are reading this thread might be interested in knowing the now ancient history of how something came to be. It is trivial knowledge, a well how about that thing.

@skipperclinton1087 2 жыл бұрын

@@crawford323 whoa, I didn't mean it as an insult, I meant it as a compliment. Your knowledge of choppers is well above my pay grade so I thought you might be able to shed some light on some I learn about. " Bell designed yet another Huey variant, the "UH-1C", intended strictly for the gunship role. It featured the T53-L-11 engine of late-production UH-1Bs, with a modified intake system fitted with prominent air filters; and a new "Model 540" rotor system, with a blade chord increased further to 68 centimeters (27 inches)." All this is a foreign language to me so I was hoping you could break it down into simple layman's terms. Obviously not with your bad attitude.

@crawford323 2 жыл бұрын

@@skipperclinton1087 My bad attitude? With the lack of facial expression and or hand gestures to complete human communication, extra care must be imparted when crafting the written word in order to be assured that no extra between-the-lines interpretation of that written word is added. Using the terms “Smarty Pants and bad attitude” could be easily interpreted as demeaning and as a less-than-careful writing style.

@skipperclinton1087 2 жыл бұрын

@@crawford323 Dude I called you "Mr Smart Guy" as from all the information you possessed on rotary wing aircraft I was spot on. Obviously you took offense to being called a "smart guy". Case of mistaken identity perhaps 🤔

@alexgomez7163 3 жыл бұрын

Btw if you understand this one step to the future pilots or engineers you can understand the other two or you can learn about the opposite section first however in the middle requires knowledge of both motor systems

@ddtddt8493 6 жыл бұрын

jacob i suggest you number your videos and suggest to view them in the order you set them up as. you can always subcategorize eventual additions as in between numbers

@helicopterlessonsin10minut10 6 жыл бұрын

DDT DDT. Done! There is now a playlist titled "All Videos in Order" that has everything in sequence.

@ddtddt8493 6 жыл бұрын

Helicopter Lessons In 10 Minutes or Less - thanks a million. Most and foremost thank you for your clarity.

@varghsan 5 жыл бұрын

Dear DDT DDT, spot on. Having videos in sequence will help us understand better.

@varghsan 5 жыл бұрын

@@helicopterlessonsin10minut10 Dear Jacob, first off let me THANK YOU for these wonderful video. EASY to Understand/follow. One more thing, you have already covered the types of rotor system but would u be able to do a DETAILED video on each type of rotor systems, especially the semi rigid type? I intend to build a two seater helicopter on my own and i prefer semi rigid as its simple/less complex.

@TheFloozi 5 жыл бұрын

What type of rotor system is on Bell 407?

@helicopterlessonsin10minut10 5 жыл бұрын

Sagar Dolli. It's what is known as a "soft-in-plane" system. This system is like a fully articulated in that each blade can flap, feather, lead, and lag independently. However, there are no traditional hinges because the blades are composite material that allow bending and flexing.

@idewanyomanwisnuarta1684 3 жыл бұрын

Wich one is the bes type???

@arjotsingh7357 2 жыл бұрын

Can we have a four blade rotor system with teetering system?

@RyanWithAviators Жыл бұрын

The rigid system must still have a swashplate though, right? The blades couldn't be completely fixed in that respect, right?

@poly_hexamethyl 6 жыл бұрын

Isn't the rigid rotor the best though, since it eliminates mast bumping and ground resonance problems? It also lets you fly inverted, do loops etc. which you can't do with the other systems.

@helicopterlessonsin10minut10 6 жыл бұрын

Poly Hexamethyl. It really just depends. Each system has its own maintenance costs and aerodynamic advantages/disadvantages. Rigid may be the best for aerobatic performance. But I guarantee those blades and rotor system cost a lot more than something like a Robinson's semi-rigid system which may be best for affordability when learning to fly. Thanks for the feedback!

@memofrf Жыл бұрын

do much to learn

@uweforst2334 6 жыл бұрын

Great Video. But I do not believe, that the coriolis force is the reason for the leading/hanging movement of the blades. At that angles the blades are moving up and down the force, resulting from the coriolis force should be hard to measure. I think the aerodynamic effects of the asymetric load in an forward moving helicopter are more valid.

@helicopterlessonsin10minut10 6 жыл бұрын

Uwe Först. I'd have to disagree with you. The law of Conservation of Angular Momentum / Coriolis Effect explains why rotating bodies increase in RPM as center of gravity shifts closer to the axis of rotation. Coning shifts this center of gravity and therefore causes rotational velocity to increase. I'm currently putting together a video that explains this in further detail. Be sure to stay tuned in to see it. Thanks for the feedback.

@uweforst2334 6 жыл бұрын

It is no surprise for me that you disagree. All I wanted to say is that, if you bend the blade 5° upwards, the resulting legth of the blade is 99,6% (cos 5°) of the blade. In my opinion is the change of the angular momentum that low, you can ignore it. On the other hand rises the drag of the blade exp2 to the speed. So you have a sigificant difference in drag between the advancing und the oposite blade. Excuse my stupid english. It ist not easy for me to discus this stuff in an forign language.

@helicopterlessonsin10minut10 6 жыл бұрын

Uwe Först. By that theory the blade that flaps up would lag due to increases of drag and the blade that flaps down would lead due to a decrease in drag. But extensive blade testing has shown the reverse to be true. Once again I'd stand by my original statement.

@uweforst2334 6 жыл бұрын

That is the "bad Thing" in my Argumentation. I have done some reserch about helicopter Physics. I found some stuff that the blades are moving in that way you are telling us. They are talking about some earodynamic reasons... because I did not exactly understand the way it works together I did not write about the moment of leading and laging... and the reasons. All I want to say is that IMHO the coreolis force is way to low. It is not in my Interest to say that you are wrong. I want to know how it works. You can find my Text at virtual-jabog32.de/forum/viewtopic.php?f=70&t=13161 (sorry it is german) The Vortex videos you have posted on KZbin where very useful.

@ISMERETTENGER 4 жыл бұрын

@@helicopterlessonsin10minut10 Please do not mix he Conservation of Angular Momentum with the Coriolis Force. These are two different things with different unit of measures. The conservation of Angular momentum is responsible for the blade to speed up when the center of the mass of the blade gets closer to the axle of rotation. It would happen even if the blade would not flap up or down, let say a mechanism would retract the blade like how a car antenna is retracted.. The Coriolis Force is responsible for the stress on the blade when it moves up and down in a rotating coordinate system. It is the cause of the blade lagging forward or backwards. Other example for the Coriolis Force is that the water in the Mississippi River is pushing the western banks because the water is flowing from north to south on the rotational coordinate system of Earth, but does not get closer or further away from the rotational angle of Earth. Otherwise I enjoyed a lot this 10 minutes or less.

@giuseppemaenza9255 3 жыл бұрын

Subscried 👍

@abdallahalhaddad3463 2 жыл бұрын

*Subscribed, Not Subscried .. Good Luck, From Middle East

@jmdesertadventures803 3 жыл бұрын

You made a small mistake, the apache uses a rigid rotor system similar to the AH 56 cheyenne. That's why they can aileron roll and backflip just like the red bull Bo 105

@normg2242 3 жыл бұрын

Helicopter lessons in 10 minutes or less ... has an intro that feels like three minutes...LOL Other than that, good stuff, excellent use of schematics!

@rootsAlkebu 2 жыл бұрын

I don’t like that the commercial interrupts the lesson. Too bad we have commercials at all. Good lesson.

@JorgePPG 5 жыл бұрын

why rc helicopters do not work with two blade semi-rigid teeterig rotor head and are they too unstable? :(

@helicopterlessonsin10minut10 5 жыл бұрын

George. I don’t claim to know much about RC helicopters. But I’d assume they aren’t semi-rigid because they want quicker control response and aren’t concerned as much about high speed flight.

@ltauzzy4151 5 жыл бұрын

So are you currently a pilot instructor for apaches?

@helicopterlessonsin10minut10 5 жыл бұрын

Austin Taylor. That is correct sir.

@ltauzzy4151 5 жыл бұрын

Helicopter Lessons In 10 Minutes or Less I’m jealous lol that’s awesome, i know you’re probably bias but is the Apache in your opinion the best air frame?

@helicopterlessonsin10minut10 5 жыл бұрын

Austin Taylor. By far it’s my favorite. That’s for sure.

@ltauzzy4151 5 жыл бұрын

Helicopter Lessons In 10 Minutes or Less it’s what I want to fly as well, so maybe you’ll see me in a year haha

@Anita95_original 5 жыл бұрын

"This is 2018, I thought the "youtube" music would go away - sooner or later. However, people never ever learn, do they? I truly hate the music, it utterly destroys the video. Yes, I can mute the shit, but I can also just leave this video and go on to something else... Though I really do like the Mi-8 and the lecture later on was something I almost missed, pure luck I stayed on this video. Scrap the music and keep up the good work."

@jrbluedup 5 жыл бұрын

Bye

@wardogies 6 жыл бұрын

Talk the tail rotor and tail fan

@titaniumdiveknife 5 жыл бұрын

You are my Igor Ivanovich ;)

@chippyjohn1 2 жыл бұрын

Don't all helicopters have some negative pitch for auto-rotation?

@helicopterlessonsin10minut10 2 жыл бұрын

Not all. Some helicopters designed to land on navy ships may have negative collective to hold it to the deck. But many helicopters are not designed with negative pitch.

@chippyjohn1 2 жыл бұрын

@@helicopterlessonsin10minut10 so how do they achieve auto-rotation?

@helicopterlessonsin10minut10 2 жыл бұрын

I have a whole video explaining it. Check out my Autorotations Expanded video

@samsara2024 3 жыл бұрын

Coriolis? You mean conservation of angular momentum?

@tyfinancial 2 жыл бұрын

One more. Starflex rotor

@marcobrandao3468 3 жыл бұрын

You can see in the video kzbin.info/www/bejne/hqaXaZltqJqFq5o a rigid rotor working. There the pitch horn and de pitch link are going up and down, all this is only because the helicopter is going foward? This movement is the somatory, deformation and the necessary swashplate actuation? The maximum lift hapens at this point, where the blade goes up. Then you need less atuation in the ciclic comand. Is this?