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3:25 APHEX TWIN SPOTTED APHEX TWIN SPOTTED APHEX TWIN SPOTTED APHEX TWIN SPOTTED APHEX TWIN SPOTTED APHEX TWIN SPOTTED APHEX TWIN SPOTTED APHEX TWIN SPOTTED Комментарий от : @stopmotionadventures4812 |
Didnt he wrote also a book why things that bend are better? i wanted to bui it but now I cant find it :/ Комментарий от : @marekzyla1659 |
I've asked SimpliSafe several times if their system could be defeated with a cellular blocker and they couldn't answer any other way than to point out that cellular blockers are illegal. Комментарий от : @billfargo9616 |
Вау, это невероятно круто Комментарий от : @OvsyannikovAV |
I think I see the clue in this. I’ve never had anyone on top of me, so I don’t know where they would touch or get a grip or whatever it is they do. That takes time and trust. They would have to explore and I would have to explore. It would be a learning process. Typically you do this when you dance, when you work out, and I would imagine just playing in the pool with each other would give a lot of insight Комментарий от : @user-um9sl1kj6u |
There is a plans-built experimental aircraft design (from Zenith Aircraft) that uses (in my interpretation) a compliant mechanism for the ailerons. I replaces the hinges of the aileron with a bending piece of sheet metal. Комментарий от : @massmanute |
Great work... but still on about space eh ? Make the real jump into being the truly honest scientist Комментарий от : @kdkinen |
Like airplane wings if they will not bend they break. Комментарий от : @CSGATI |
🤫🧏♂️ Комментарий от : @Rinalds1FT |
So all those hair clips I grew up finding all over the house were ahead of their time 😂 Комментарий от : @MotoVengeance |
So the iPhone 6 is the best Комментарий от : @Worthy_Edge |
2:14 isnt it assault ? Lol joking great vid ! 😂 Комментарий от : @kettelbe |
It slowly wears down Комментарий от : @frostbite3756 |
Grazie: era una curiosità che avevo da parecchio. E' uno dei video più interessanti del canale. Комментарий от : @salvatoresessa7770 |
I’m having trouble finding the 3D print file for the red clicker thing. Any link? Комментарий от : @kentapplegate1 |
At 4:33, I'm going to guess that circle on the elephant is not going to move at all Комментарий от : @warrior4christ777 |
one of the example compliant mechanism advantage in real world application is for the oscillator in mechanical watch "monolithic oscillator by frederique constant" it's significantly far more efficient than the classic oscilator and escapement mechanism which replaced 26 mechanical parts component for one new part component only Комментарий от : @mooncrack37 |
I feel like compliant mechanism would have some real problems with temperature and pressure changes Комментарий от : @delgermuruntsagaankhuu6951 |
i wonder if it'd be possible to make a micro/mechanical computer with this technology? Комментарий от : @ralphmueller3725 |
That's absolutely incredible. Комментарий от : @margodphd |
10:00 that moment When science literally give you mini-orgasm of happiness🧪🔭😁👌👌 Комментарий от : @3dgar7eandro |
Something is wrong, i can feel it Комментарий от : @holajza |
I love the people at 1:37 popping into see what’s going on Комментарий от : @Crow-gp3ci |
Me to a girl : Hey you wanna see my elephant Комментарий от : @mayurkalsekar524 |
Looks like the switch housing has enough space to fit a compliant mechanism into it. Maybe Lego can try updating the part. Комментарий от : @xtreme666bio |
Bender would be proud! Комментарий от : @ricoadiputra9805 |
Until they snap. No material flexes indefinitely without wearing out. Just ask my knees. Комментарий от : @christopherpardell4418 |
As a (non)american I just have to ask, can you make a gun with compliant mechanism? Комментарий от : @dominicbrunsmeier |
Why does it look like one spoon strangling another Комментарий от : @SalivaYOUTUBE |
They need to already start mass producing this. What's stopping then world? Any investor would invest in this This is revolutionary. Комментарий от : @nikyabodigital |
aphex twin aphex twin Комментарий от : @p.atrick. |
Just saying, saying the sponsor (simply safe) protects your home is rather dishonest. They monitor and report, but they do not protect. A camera will not stop an intruder from hurting your family Комментарий от : @Staymare |
wow, I didn't think bending (flexibility) could be harnessed in so many ways!!! Комментарий от : @Ukepa |
Get well soon Dianna Комментарий от : @alexchin7756 |
Now this is critical thinking Комментарий от : @audreydoyle5268 |
I wish this went into more detail about how the bomb device wouldn't be thrown off by vibrations. Комментарий от : @tgeliot |
The thumbnail caught me off guard... Комментарий от : @SRT_Demon170 |
Where can I buy that elephant - Please ! Комментарий от : @allanwrobel6607 |
Why isn't everything compliant than Комментарий от : @ShaharHarshuv |
The one problem I assume to be with these machines, no 360+ degree of rotation. Комментарий от : @NightclubPegasus1 |
I'm going to be applying this to rc cars Комментарий от : @fullsenderman8291 |
I knew the mechanisms in Mark Rober's new video looked familiar; I guess this is where I saw them. Комментарий от : @Kyla1112 |
Potassium Kotassium K VERTISSIUM Комментарий от : @NERDXspace |
🤪 ...mindblowing... Комментарий от : @antoninpetras9093 |
10:19 that could be good for power generation. Ie wind Комментарий от : @jamesdean0885 |
Anyone else see aphex twin? Комментарий от : @igbatious |
Hi All! This video catched my attention years ago. I read some books in the field and had a vague idea about making a program which can create unistress compliant mechanisms in a form of blueprints whom can adapt the geometry based on the material properties. I plan to use this in the field of recycling via an extrusion-slicing technology like it has been shown in the video. I tried to make an essay about it to a techer and also tried applying to a startup program, but I did nt got the desired answers. Honestly, I think my math and programming sucks and I cant make this idea close enough to reality. If anyone of you is still reading and interested I would gladly share this problem with you and I hope we can figure this out together. Just pm me! Thank you! Комментарий от : @matyasrevesz252 |
Aphex twin Комментарий от : @michaelcurtin1545 |
3:43 I asked this out loud just before Derek did. Great minds think alike I guess XD Комментарий от : @InsomniacDoggo |
1:37 how they look 😂 Комментарий от : @foobko7722 |
As a EE in an electro mechanical design group for printers I worked closely with 2 lead MEs. One advocated for traditional rigid structures while the other wanted a compliant design.
In this particular case the compliant design had more parts and complexity. Ultimately the compliant design won out. In conjunction with servo control, acceleration and deacceleration could be tuned resulting in greater positioning accuracy, higher reliability, less noise, less vibration. Overall impact on cost turned out to be minimal. Комментарий от : @avatarcowboy2435 |
Great episode! Glad it showed up in my feed again Комментарий от : @osmia |
Aphex Twin reference? Комментарий от : @Chum_. |
I know a guy who would like this video, he would always be telling me to bite his shiny metal ass. Комментарий от : @farisakhtar4824 |
so he made a less-durable vice grip. riveting..... Комментарий от : @facehairteeth |
Weird.... so that is why when you drop a glass bottle it breaks yet a plastic one does not... 🤔😅😂🤣 Комментарий от : @fanman421 |
This is exactly what futuristic motion would look like Комментарий от : @jesuss5721 |
They still wear and break and are only "better" in very specific instances. Комментарий от : @BigBadBrains |
'It's a quality action.' Комментарий от : @nathan1459 |
Amazing Комментарий от : @Gsjsji_jwjsbs |
11:24 The Russians got very interested Комментарий от : @Paggen |
Mechanical Engineering is so beautiful. Комментарий от : @elrond435 |
Downloading all these stl files! Комментарий от : @robert_iadanza |
Damn, I hope Dianna is doing ok. Hit me surprisingly hard when I saw her in this video. Комментарий от : @Smokinjoewhite |
Quick psychology question: What did you see on the thumbnail? Комментарий от : @Copybook |
I hate my mind Комментарий от : @arendary |
Don’t trust BYU science, they have a religious bias in science experiments. Комментарий от : @kevinhardy8997 |
Awesome video! Thanks 😊 Комментарий от : @HappyComfort |
Is it just me or does the thumbnail look weird? Комментарий от : @dulrankariyawasam8859 |
[01:50]: Can it fold a coin or crush a rock, though? Комментарий от : @Inspirator_AG112 |
Is it looks like? A conic of 5 points with a point close to the line segment between two points. Depending on the closeness of the two parabolic curves, the elasticity of the material, slip occurs when the applied force limit is exceeded. If 3 of the points forming the cone are on the same line, fulcrum points are required between the edges to prevent it from forming 2 lines (scissors) that intersect each other. Комментарий от : @infegfx |
This is cool, but for anyone who has owned a chainsaw case with a compliant hinge for more than a year, this is terrifying! Комментарий от : @flsdfkln |
The thumbnail is pretty sus if you notice... Комментарий от : @Anonymous-yx8zm |
Great content, that was very interesting! Комментарий от : @Oracle_Speaks |
wow! amazing! thank you so much for filiming this video. Комментарий от : @Amazing.World.2024 |
Aflex Twin Комментарий от : @sirawesomehat8814 |
Would you like to try yes of course I would it's for YouTube 😂 Комментарий от : @JundArbiter |
Larry is like literally a clone of my uncle and my grandfather. All engineers, same gestures same glasses the same clothes same hair Комментарий от : @JundArbiter |
I’ll keep my old fashioned metal vice grips thanks tho guys Комментарий от : @willthomsen7569 |
Never connect your home security system to the internet. Комментарий от : @backupintheday9710 |
Aphex twin Комментарий от : @eirene2328 |
This is awesome! The implications for chip tech are huge. Well actually huge for everything. Комментарий от : @jameslast3192 |
he made it for the illuminati Комментарий от : @kristiandior4167 |
mate pulled an uno reverse card Комментарий от : @kristiandior4167 |
Aphex Twin wants his royalty check for the design. Комментарий от : @donoray5501 |
good for disposable things, polymers become brittle with time, next Комментарий от : @embededfabrication4482 |
aphex Комментарий от : @randm7216 |
I need that for my glasses. Комментарий от : @immortal-_-on |
aphex twin Комментарий от : @SeifAndCo |
The fact that they physically have to interact with it on a microscopic level for it to work is amazing Комментарий от : @Pc.Farmer |
Compliant mechanisms have really thin areas/hinges, so someone like me and every idiot consumer could force it and snap it easily. Easier than a metal non-compliant switch. Комментарий от : @kafkaesk3449 |
Very good video, Derek! Комментарий от : @Hakobyan312 |
aphex twin?? Комментарий от : @chunk2864 |
seeing Diana made me want to cry, shes in such a hard place right now and just seeing her being so happy makes you realise how unfair this world is Комментарий от : @dbkarman |
APHEX TWIN Комментарий от : @ajorux1665 |
Id like to share my thoughts.. so heres a short bit Compliant mechanisms are innovative designs that rely on the flexibility of their materials to achieve their intended function. However, one significant concern with compliant mechanisms is the potential loss of flexibility over time. This can occur due to a variety of factors, including fatigue, wear, and other forms of degradation. As a result, compliant mechanisms can experience a reduced performance and reliability over time, compromising their effectiveness. The loss of flexibility in compliant mechanisms can have significant implications for their performance. For example, it can result in reduced accuracy, repeatability, and stiffness, making them less effective for applications that require precise control and positioning. Furthermore, the loss of flexibility can increase the risk of failure or damage to the mechanism, which can lead to safety hazards or costly repairs. One potential solution to this problem is to incorporate monitoring systems that can detect changes in the compliance and flexibility of the mechanism over time. This can help identify potential issues early on and allow for preventative maintenance or repairs before the mechanism fails completely. However, implementing such systems can be challenging and costly, particularly for complex or large-scale compliant mechanisms. Another potential approach is to explore alternative materials or designs that are more resistant to fatigue and wear. For example, researchers have explored the use of shape-memory alloys or elastomers that can recover their shape and properties even after undergoing significant deformation. While promising, these materials still face challenges in terms of manufacturing, durability, and cost. In conclusion, while compliant mechanisms offer innovative solutions for various engineering applications, they are not without their flaws. The potential loss of flexibility over time can compromise their performance and reliability, making them less effective and safe. Designers and researchers must continue to explore solutions to mitigate these risks and ensure that compliant mechanisms remain a viable and useful technology for the future. Комментарий от : @kevinzhai1049 |
I wonder how amazing yet simple those things are! How come anybody couldn't figure this out before? Комментарий от : @anonymousSurfer |
Any Futurama fans here?? Lmao if so we already knew bender is the best robot haha Комментарий от : @louiexantana |
Cool Комментарий от : @jagsproduction |
bender unit 69 at your service Комментарий от : @ThePagiria |