There where he's very strong, is the moment he told us, right at the begining, the reason why they decider to take this solution. And the most of us pursuit the lesson watching the entire video, because of the torrent of precisions he give us. Master.
20 years ago, on a 737 flight, the pilot notified passengers to buckle up, extreme turbulence ahead. He said he was going to try to fly to avoid it. The plane went into a roller coaster ride from hell as the pilot took the plane straight up, to where we were almost flying in the stratosphere, then suddenly turning into a speeding nose dive. This went on for almost half an hour - straight up, straight down. Passengers were terrified & screaming. I was new to flying but the guy sitting next to me flew often & said this was not a turbulence issue - it's something else. He was scared. The plane finally leveled out & we landed shortly at Newark. But my legs were like rubber, I was so scared & stressed I could barely walk. After deboarding, I was waiting at the gate for a friend to pick me up & overheard our flight attendants nervously joking & one say, "Thank God *pilot name* knew what to do - I wasn't up for a belly landing today!" Found out later, from a small plane pilot friend, that the landing gear was likely not working properly & the pilot was maneuvering/pitching the plane up & down to get them to drop. All was forgiven :)
Should told it was to get the landing gear out, less scary than doing stuff like that for no reason. Was on an plane who was able to retract the gear. We was worried about getting it out and was told it just fell out then released but needed hydraulic to retract.
Thank you. I’m a medically retired airline pilot, nearly 15 years since I left the cockpit. Thanks you for the good info. It’s hard to believe but I had forgotten some of what you covered. It’s amazing how quickly ones mid can dump information. Keep up answering some of these more common questions and being a great ambassador for pilots.
@@mokuzu993 well when you fit new larger engines you alter the weight balance of the aircraft In the case of the 737 Max it wants to go more up so you correct that tendency with elevator pitch What Boeing did not do was execute this properly Be failed to insist that pilots were trained in this ; how it worked ; how to recognise and system failure and how to manually overcome any failure off the pitch control system. That failure to explain and train cost 2 aircraft and 350 lives .And if another 737 Max crashes in the next few years for any reason it risks the very existence of Boeing .potentially. It used to be "if it is not Boeing I am not going " -now it risks becoming "If it is Boeing I am very definitely not going " !!!
I'm a pecuniarily retired pilot and i can hardly remember the 12 things he told us to do to land a 737. I still remember the radio, oh and the full flaps, but what about the seat belt sign?
Like maintenance renegade said, the intire landing gear and supporting systems like anti-skid valves ect. and a large area of the hydraulic system is accesed from the wheel well. Absolute bitch to work in tho
@Maintenance Renegade Dunno how it is on the 737 since I only worked on the 707 in training but I'm quite short (5"8) and some parts are hard to reach for me ;D. Especially the walking beam.
@Maintenance Renegade When the Aircraft is on the ground the landing gear tire is no longer covering the wheel well opening giving complete access all components. The original design engineers missed this feature and added a serving door for hydraulics (probably for an external hydraulic mule) which was generally never used and subsequently deleted. Debris generally enters the wheels wells when the gear is down (unusually on landing and thrust reversers applied). The perimeter seals mitigate noise and aerodynamic drag. The original bag seal material was attacked by residual hydraulic fluid residue and change order was issued correcting the problem with the present system.
Worked on many 737's & was aware of the main landing gear brakes & hydraulic systems but I learned so much more from this video. I mostly did APU overhauls, hydraulic troubleshooting, slat, flap & rudder checks & maintenance & on wing engine checks (fan & last stage t-wheel). Fun stuff! I still look anytime I hear a plane flying.😊👍
Very cool to see how different manufacturers tackle the same problems. I work on CRJ-200 and -900 and they have brushes instead of those flaps lining the wheel bays. Also they have "wheel bins" which surround the gear inside to protect structure and components.
That's what I love about engineering--they found a solution to their problem that was as good as it needed to be but not more. I'm sure the small cost in drag was compensated for in weight (fuel $$) and complexity (maintenance and manufacturing $$)
In the 1980s (actually in the electronics industry, but exactly the same principle), I used to be the one who said things like, "Get rid of the doors". Everyone thinks I'm completely mad. "We need doors" "Gotta have doors" "Ben's spent two years working on the doors, we can't get rid of his doors" "Get this guy outta here, he wants us to get rid of the doors!". I persist: "Seriously, run the calculations without the doors. I think they'll work out. And with no doors, we won't have to solve the problems with the doors". The calculations do work out. Ben loses respect. I gain it.
Exactly...! Designing has the biggest challenge up ahead which is not about the best materials and best performances to get out, but the best compromise. That's key to success!
Just before getting on this presentation video, I watched a video of inside the well cam of a B737 in a take off. The moment the landing gear moved to come inside the well, the brakes were applied on the fast moving wheels stopping them instantly before they got inside the wheel well. I was pleased to see you pointed out the same in your presentation.
Good eye. A landing gear hydraulic line that is pressurized only when the gear handle is in the "UP" position, during gear retraction, is also connected to apply the brakes. After the gear is completely retracted, the flight crew moves the handle to the "OFF" position, removing pressure from the retract cylinders and wheel brakes. The gear is mechanically locked in the up position until the handle is moved from "OFF" to "DOWN," at which point the gear extend side of the hydraulic actuators are pressurized. After the gear reaches the fully extended position, it is held in that place by both mechanical locks and hydraulic pressure.
Thank you, I have often wondered about this, but did not realize that even the most recent 737s use this system. Very used to seeing the 737-400s, but seldom anything more recent than that. Your videos are hugely informative - thank you.
My uncle was one of the primary design engineers for one of the planes in the 737 family. I believe it was mid to late 70's. I love to see some of these quirky ideas they came up with!
I love the look of the exposed tires beneath the 737. Obviously, it’s all about function, but it’s still a function that gives a distinctive, maybe more rugged appearance to the plane (like having a spare tire mounted outside of a SUV).
One of the first things I learned when I first joined Air Traffic Control was about the Boeing 737. It was built to be "self-sufficient" at smaller airfields. That meant that it could start it's own engines using it's on-board APU (Auxiliary Power Unit), it has it's own on-board mechanically operated stairs so it doesn't need airfield steps or the start up truck just the fuelling bowser. I think it can or used to be able to, power back off the stand without the use of a tug. A very forward looking design that has lasted decades, that's why it's still being used albeit in more modern guises. Another airliners that had their own stairs were the DC-9, the BAC 1-11 and the Boeing 727 if I"m not mistaken, all at the back of the aircraft between the rear engines. My friend was on a flight from London to Madrid once on a DC-9 when the back door/air stair seal blew causing an explosive decompression of the cabin. They landed safely but very shaken. Another good reason to keep your seat belt loosely fastened in flight when you're not moving around the cabin.
I don't know why ppl fret so much to wear their sear belts. Loosely fastened should be the way at all times. Ppl unlock their seatbelts the moment the seat belt sign is off, as if they are gonna get paid for it
I was in the Air Force, and a lowly First Officer in the KC-135. Heading toward Beale AFB, a 737 flew over the top of us, on the way to Sacramento. I helpfully told him that his main landing gear doors were missing. I thought the laughing would never quit.
Pretty amazing to take this chance at a time where computer simulation was a dream. They certainly had to spend numerous hours in wind tunnel to validate this design, to avoid drag and awful whistling noise, making the plane unusable. They saved weight and landing gear complexity, all my respect to the design engineers.
Great answers and explanations love the way you go into so much detail, I’m not a pilot or have anything to do with working on aircraft but the understanding I get from your videos are great, keep up the good work.
I live nearest from the Airport in my city, and some days ago i saw an 737 and i was thinking why the wheels have not doors, thanks a lot for explain it! Im from Silao Guanajuato México.
Excellent piece, just like the rest of your videos. Thank you SO much for doing these! As a total airplane junky, I love this sort of easily digestible education.
thank you for the explanation Mentour Pilot. I've been working in the ramp for 8 years now and I have this same question. Now I know the answer. Good job sir
@@MentourPilot No doubt by now someone has suggested this, but I'll make the point anyhow. For instance, much of Northern Canada airstrips such as in the Yukon or NWT have been mostly gravel strips and the 737 was able to land and take off from these strips with only slight modifications to add rock deflection above the nose wheel. I suggest that the 737 aircraft was one of Boeings best short field models ever produced.
I had been told by a friend who works at Boeing that the exposed wheels increase survivability in the event of a water landing. If you look at the at-rest angle of the Airbus in the Hudson River incident, you will see that the plane settles alarmingly low in the water very quickly. Simulations at Boeing have demonstrated that, in the same situation, the at-rest angle of a 737 would place the floor of the cabin 3 to 4 feet higher than the Airbus. This is, my friend tells me, because of the exposed wheels. I am glad you have taken the time to correct this misinformation. Now I don't feel so bad about sleeping with his wife.
I am so pleased that I read this, because I was thinking about buying o e of these to fly the 3 miles to work each day. But the hub caps have put me off the purchase. Yobs nick hubcaps down my road.
You answer the question and answer every question related I would have asked regarding it.Bravo!Thank you for your knowledge and willingness to share Sir.
Thank you for explaining this. I've see 737s fly over head so many times, and I've noticed that I could see the wheels, but didn't think it possible from an aerodynamic perspective. I thought maybe they painted black circles on the landing gear doors, but that didn't make any sense either.
About the fuel efficiency issues, think of it this way: You have slightly more drag but at the same time you ditch the weight of the doors and thus in total, the fuel efficiency remains the same as if you added a bit of extra weight and reduced a bit of drag by adding doors
Speaking of the 727, I remember many years ago I flew first class in an old 727. Since the engines were way at the back of the plane, the take off was the quietest I've ever experienced.
It's quiet for those in the front of the plane, but definitely not for those at the back of the plane or on the ground outside. In fact, it seems that tail-mounted engines are MUCH louder than their wing-mounted counterparts, even ones that appear to be the same size and from the same time period. I wonder if there's a scientific explanation for why that is the case, perhaps having to do with the sound waves bouncing off each other and amplifying. Could this explanation be a future Mentour Pilot video?
Glenn, the main reason tail-mounted engines seem louder is because they are indeed louder -- they're earlier-generation engines. They were either turbojets or low-bypass turbofans.
And people think my work in industrial Instrumentation and Control Systems is intricate and complex? Thank you for a detailed and rational explanation into one more engineering design decision.
@@Amonginsanity 14 psi is maybe correct, you want a low pressure to have a good contact patch to the ground. Drag of the tyre is not a major concern here
@@guigui045 Sorry ... 14 psi is not a correct figure. The correct figure is 200 psi which is equivalent to 14 bars pressure. Thanks for your comment though.
Don't know how can 1.1k people dislike his video when he is explaining everything very clearly with images and videos.....!! Really a hard working person..
I have the same question too. It s a simple clear explanation and it s about the reasons of the manufacture behind those design ideas , not his own personal opinion or something. What makes people unhappy, argue or complain?
As far as stuff entering the wheel well's when retracted, I'd be more concerned with stuff entering the well's when the gear is down during taxing or take off , like rain, slush, snow etc.
I just found your channel but your videos are extremely informative and comprehensive and you get sraight to the point. I love videos like these. I hope you continue making videos as you're a role model for many young aviation enthusiasts like me :D
Do more of this untouched stuff in aviation more than the popular stuff. As always the video was absolutely fantastic just like you. No suggeations on quality of vids coz its best :)
Mentour Pilot Little wonder Boeing is contracted for defense then and now. Though I can’t help but wonder where innovation like that happens today, seems very esoteric ☹️
You should read about the nose gear and the main gears of the space shuttle. On landing, there are pyro charges to make sure the gear doors open up. On one landing, one of the main tires blew while the shuttle was coming to the wheel stop. This happened only one time when landing at Kennedy Space Center.
Peter, I love the 737 and have flown in it more than any other aircraft from the 737-100 to the 737 Max. The United and Norwegian pilots knew how to fly it, I wonder why the others didn't have the training on the system so they didn't have the episodes that led to their crashes? I love your very informative videos. I wish I could be a pilot but at 56 it's a little late in the game to pursue that path. I love at least learning and you are a great teacher. Thank you for creating these videos.
One extra step when changing the outboard tire/wheel assembly because of wheel fairing. Also wheel nuts are not visible on walk around inspection before flight. Not great. But it works.
i never even noticed that they dont have doors. interesting :) btw i always find it funny how low-tech some solutions are in the aviation, and space/military world. some rubber things to stop the noseweel motion and to seal the compartments...shows that the simplest way often is the best one in engineering :)
Engineering is about asking the right questions. Once you identify what performance/design criteria you really have for something, you can boil it down to its simplest parts and go from there.
Never noticed. After all the wheels are down when they are close and on the tarmac . However next time I see a 737 circling I’ll get my binoculars. On second thoughts I am not that interested. One thing , the Stuka : why did it not have retractable wheels?
Less to fuqupp is a good thing. KISS -- Keep It Simple, Stupid This should be applied to software, also. But it seems that such is made complicated on purpose these days, because... Gee Whizz!, would you look at that! Bah! (I'm a software/network guy. But I started in Electronics. And should probably have done Mech. or Industrial.)
The B737 main wheel well doubles as the plane’s nervous center. A separate compartment for such task didn’t fit in the 737 elsewhere because it’s a such small airplane and thus they had to combine main wheel wells with the nervous center into 1 compartment.
Well in reality he is answering the question "Why did the Boeing engineers design is like that" which is much more interesting than what amounts to "because I said so"
Thank you for another very informed, educating and interesting video. I am a retired Engineer and can't get enough of this sort of thing! Oh, and by the way, I think you meant 14 bar, not 14 psi when talking about tyre pressure.
I would've expected the wheels to retract into a basically bullet-proof, air-tight compartment. But probably the fuel savings are more important than the added weight.
Very funny. Great details and your straight face. That shot of all the tubes in the wheel well is damn scarry. Appreciate the inserted very clear pictures. Every followup question clearly answered. Love these super technical trainings. OH.... do captains routinely know all this or did your research this topic?
Tires are filled with Nitrogen. PSI depends on 737 series. Between 200 and 230 for the 737 Max. When servicing these tires it’s best to stand away just in case they blow up.
The coolest part of working at an AMO is watching gear swings. The whole action of the gear being sucked into the belly of the beast is most impressive, and seeing a whole aircraft being held up by only three jacking points is a little daunting. I never really took into consideration why they wouldn't have doors over the wheels. But less weight makes sense and reducing complexity as well. Plus I have recently done rigging of the MLG doors and it is a huge pain in the butt. So from a maintenance stand point, one less gear door to rig is better too. So many aircraft have this solution and some don't even have fancy hub caps, like the CRJ, Challenger, and ERJ all have exposed wheels and lack hub caps. So it must not be a huge deal aerodynamically.
Donald Clifford i dont think that is a dumb question at all, but a very curious one for sure. It is not an easy one to answer either, because of one main factor is that landing gear on aircraft vary so vastly. One thing is for certain, that commercial aircraft manufacturers employ multiple levels of redundancy. Thus you'll note that many commercial aircraft have multiple tires on the main landing gear. If you lose one per axle it's a concern but the plane should handle it well as long as the pilots dumped a significant amount of fuel to reduce weight. It might not be the smoothest landing ever but some might jokingly say that any landing you can walk away from is a good one. Maybe check out the JetBlue incident at LAX when they had a nose landing gear not rotate fully on deployment and on touch down it sparked and screeched to a halt, but ground the whole front tire assembly to a pulp.
Waldek: I assume if we fly regularly, we probably land with at flat once or twice, and never notice it. Commercisal air is amazing in its safety record. Thanks for the reply.
I have to agree. Watching a nearly 2 story high 777 landing gear retract in a couple of seconds really gives you a sense of how much energy those hydraulic systems have.
I love this channel man, I'm not a pilot but I do love mathy things so aviation falls into that well. This guy is seriously fantastic as explaining the technicalities. I get as much enjoyment out of watching this channel as I did watching MC videos when I was 14 years old. Really cool!
I have been following Captain Joe for a while for his A320 videos and find them sooo intesresting. And now I recently found your equally interesting series about the Boeing 737. The A320 and the 737 are the aircraft I fly most often in my travels so I like learning about the internals of both aircraft. What if both of you (don't know if this it at all feasible) join at simulators and try to fly each other's aircraft. Would be quite interesting to see you flying an A320 and Captain Joe a Boeing 737. It seems that each aircraft is quite different from the other.
While Capt Joe was flying A320s, I think he might be flying 747s for freight service now. At least that's what remember hearing in one of his career updates.
Interesting video with a good explanation of why there are no doors on the MLG. As for the exposed tires, I wouldn't think anything would happen to them as there have been many other aircraft designs that have had exposed wheels. WWII aircraft may not have flown at speeds of today's modern aircraft but many flew at altitudes at 30K + with no problems of the wheels or tires exposed to extreme temperatures. The B-17 didn't have any landing gear doors and the tires were filed with compressed air, nothing much happened to them due to altitude or temps. Flak and Fighter damage was another problem, but not having landing gear doors eliminated weight and problems caused by damaged doors. But Boeing has always build superior aircraft, built like tank armor. As for icing on the underside of the wing, I've seen this only once on a B-52 Bomber. I doubt that it formed during high altitudes, but rather after it was at lower a altitude or after it landed. I was stationed at Seymour Johnson AFB and we had a B-52G that had just landed with some mechanical problems. It was summer, very humid and the aircraft was very cold from flying at high altitude. When I got out there the underside of the entire aircraft had a thick layer of frost and some ice. But like I said, it could have formed at landing speeds, at low altitude or after it had landed during taxi.
Hey, ! Please make a video about the escape chutes for emergency evacuation. How they are folded in their tiny boxes, what inflates them, etc... Thanks in advance. Take care and stay healthy.
0:14 That sir, is a wheel boot. You obviously parked your plane in a no parking zone or had a bunch of tickets you hadn't paid and so the parking authorities placed a boot on your wheel to force you to take care of your parking tickets before they will remove the boot so your wheel can freely rotate again. Happy to help, and just let me know if there are any other questions I can answer for you.
Thanks for taking the time and trouble to produce such interesting videos. As someone with an automotive maintenance background, I like to hear all the technical detail. 👍👍👍
That was odd, i do see the 737's every day as a neighbor to a airport, but still i never noticed this about the undercarriage. Seems to be almost same solution like good old Spitfire during ww2.