Комментарии:
The bolts themselves have their own inertia but you omitted and considered them as point mass. The individual bolt may have smaller inertia but if you project them to the center, it got bigger.
ОтветитьTo the Front Yard Scientist,
thank you for the effort you put into trying to make it clear to us. Where did YT hide you for two years?
I discovered your channel yesterday and will probably need another week to have seen all your videos :-)
Greetings from Germany
Glad you explained the basic principles in terms only hard core engineers could understand. We wouldn't want ordinary plebes getting ahold of and using these secrets.
ОтветитьImmediately subscribed within the first 30 seconds 😂
ОтветитьCool design and nice job putting it all together . Not sure what the MFD would be but could you use a discharge on a cap to regulate startup ?
Ответитьthis is amazing
ОтветитьWhat you need is a (pardon me I don't know the exact name of this item) one way coupling on the gyro shaft that allows movement in one rotational direction, and freewheels in the other direction. Helicopters use these. This way, the motor can spin the gyro up and then remove itself from the drive train and allow gyro to spin unimpeded.
ОтветитьExceptional ideation construction and explanation ! 👏🏻👏🏻👏🏻👏🏻👏🏻
Ответить"After an hour or two of cad work I came up with this"...really man? That's how you gonna ruin my day. +1
ОтветитьAs a mech eng student, I found the whole process fascinating, more please sir! Thank you for using metric units 😅
ОтветитьI like the Project idea very much I want to recreate it but there id problem in printing the parts
Have you decreased the scale of parts in stl file?
I am sorry, but why did the flywheel to be printed? Are there no metal shops in your area? You could simply get a few metal plates drill a hole into them with a locking notch and weld them together and then even perfectly balance it by adding some weld spots or grind away some mass in places. And the whole base could be done by bending some 5 mm iron.
Ответитьawesome project i love the physics behind this..
ОтветитьWhat are the dimensions of the 3D Printed flywheel 🙇🏿♂️🙇🏿♂️🙇🏿♂️
ОтветитьThank god I took physics: Mechanics and understood all the theory behind this!
ОтветитьWhat a fantastic invention!!! reminds me of some type of futuristic robot!!!
ОтветитьThis guy's a Bubble buddy - He made me learn math while enjoying it!
ОтветитьMesmerising little machine! Well done, enjoyed the video
ОтветитьThe sound is horrible and saturated !!! with plenty of unpleasant clicking noises all along the video .
ОтветитьVery Good 👍
Ответитьnow do flywheel energy storage to run the DIY multistage cryocooler for at least 2 hours
ОтветитьThis is really cool. I just love the physics behind this project.😊
Ответитьgot me on math, but dog moment was cute
ОтветитьAh, 45 calibre bullet. That so clears things up for me.
Nothing like Olympic pools or football fields. 🤠
Effective, but wouldn’t this use a lot more power than it needed to?
ОтветитьThats cool, but the part about having too much r.p.m.. Did you actually test that out for this particular application, or are you going off of theory from other variables. The reason i ask, is because this applies to aviation too. But the large diameter props cant usually exceed 3000 r.p.m. before causing vibrations that make stuff fly apart. But smaller props can gain a little more r.p.m. That might have something to do with the distance from the outside to the center, balance, vibrations and resonance. And then there is the factor of the materials that they are made with.But why dont turbine jet engines fly apart? They spin at a much higher r.p.m. But they are smaller diameter than large props. Of course they are very well balanced and made of metal. Would there need to be vibration dampening and stronger materials? But it seems that plastic would be pretty good at dampening vibrations.
Ответитьlike hdd motors for that.
ОтветитьExcellent jog bro!!
ОтветитьSuper impressive
ОтветитьSir please tell us shaft and bearing diameter also
Ответитьso original idea
Ответитьwhoaaaaaaaaa, thanks dude. wowwwww.
ОтветитьDoes anyone know if this complies with the legal Beyblade rulebook for tournament use?
ОтветитьElectric spinning top
ОтветитьPaul Blart Mall Cop approves.
ОтветитьSo much smarts and then he lets his dog's face get centimetres from a fast spinning mass of metal.
ОтветитьLooks and sounds like some kind of an alien, I love it
ОтветитьBTW if someone would really want to solve walking robot problem before modern era of electronics, big gyro might be the way to go
ОтветитьАмериканский физик Роберт Вуд, известный своими шутками и розыгрышами, однажды поместил тяжелый гироскоп в чемодан, где проделал сбоку дырку, чтобы гироскоп можно было раскрутить, резко дернув за намотанный на его ось шнурок. Взяв этот чемодан в поездку, Вуд раскрутил гироскоп перед тем, как сходить с поезда, и вручил чемодан носильщику. Пока они шли по прямой, все было нормально, но тут Вуд резко свернул за угол, носильщик за ним, и чемодан встал дыбом в руках носильщика, сильно поразив беднягу и всех прохожих.
ОтветитьTake a shot every time the narrator says "3D printed"
Ответитьhave you considered machining the wheel instead of 3d printing it? It'll withstand much higher stress
Ответитьamazing!!!
ОтветитьYou sir, are a freaking genius! You leave nothing to trial and error & calculate every parameter. You don't happen to work for NASA down there?
Ответитьtry take wind arond 🙂 or try take me +
Ответитьvery cool
ОтветитьYou are genius!!
ОтветитьTotally underrated channel
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