As soon as you were talking about where to position each magnet so that they only match up in one position, I was thinking "prime numbers should come in handy here". I was very satisfied when I saw that the gaps between the magnets ended up to be 1, 2, 3, 5, 7 and 7.
@@darrennew8211 The problem with fibonacci is that the wheel only had a very limited number of positions, and the way fibonacci scales, you would run out of room quite quickly.
The year is 4172. Humanity has achieved functional immortality, all material needs cared for. Ivan Miranda begins work on his marble nanosecond display
I've loved these videos for a while, but the magnetic torque limiter which auto-realigns itself is on another level above the other mechanisms you've built for these projects. That feels like one you could patent and license out, it's such a brilliant solution.
I genuinely think you are a madman. My kind of madness though, it earned my subscription and I watch every video in the series as soon as it comes out. I hope you keep embracing the madness.
This series should be a must follow for students when it comes to problem solving. It is all about encountering issues and then needing to finding a solution and that means do not try to come up with the wheel, but find out who made the wheel and how it works and how you can implement it to solve your problem.
Just wanted to say that I appreciate the thought you give to the aesthetics of your prints even while trying to solve complicated engineering issues. Form is still following function, but that doesn't mean it can't also be beautiful while doing so.
the 7-magnet pattern you ended up with for the torque limiter reminds me of a few mathematical patterns - i'm not sure which would be closest off the top of my head, but it reminds me a bit of prime numbers, the fibonacci sequence, and the golden ratio regardless, i'm looking forward to seeing this project continue - i'm confident you'll be able to make it work fully!
The gaps between the magnets are prime numbers. 1, 2, 3, 5, 7, 7 (I think the last one can be 7 instead of 11 because their aren't enough positions around the ring to have the magnets repeat positions on the 7s) (1 is not prime but the rest are)
@@ChilledOutGuild There is actually a spot in which two magnets are aligned, 7 apart, that Ivan missed. It's at 11:44, but it's a bit hard to pause at the right moment. But indeed if he went with a 11 spacing you'd end up with the 5 spacing repeating one time because the wheel isn't large enough, so it can't be helped.
The whole time he was adjusting the spacing I was thinking "I bet prime number spacings are what he'll wind up with" Glad to see someone else did the work of counting for me 😅
They're the prime numbers of measurement/Segmented numbers (OEIS A002048 - the numbers that are not the sum of any set of consecutive smaller terms), except indexed at 2 instead of 1. The normal 1-indexed: 1,2,4,5,8,10,14,15,16,21... And the 2-indexed used here: 2,3,4,6,8,11,12,16,17,20... ...except it wound up being a little off (his goes 2,3,4,6,8,8,9), presumably because he made the wheel first with only 40 slots, resulting in 2 extra overlapping sets of magnets that he didn't show - the two 8s, and then the 2+3+4 and 9. To have 7 magnets with no possible overlaps, he'd need at least 46 slots, or 44 if he started with two adjacent magnets (so using the first sequence here).
I'm glad the magnet clutch worked out and you have a good spacing. To increase the strength later on, you can add more magnets, but with the opposite polarity facing out so that they won't be attracted to the magnets that are already placed.
They are primes, because there's only one way to line them up that many of them will match up. They have no common factors, which would cause there to be multiple ways to line them up.
Lego has also torque limiter gears. I don’t know how they work, but there are include in any Lego Technic Set to protect the motors. These gears exists with different Nm settings.
Those limiters aren't indexed, when they slip, they slip by a partial revolution, if that was put into place here, the first time the elevator slips it would fall out of sync with the rest of the clock and throw things out of alignment. This one is indexed, so when it slips, it waits for the rest of the revolution and falls back into alignment when it recouples. The single magnet coupling is insufficient to move the elevator, so since there is no coupling of multiple magnets until it completes a full revolution and re-engages all six pairs, you can call this torque limiter as being indexed, as it maintains alignment with the rest of the mechanism.
This is honestly one of my favorite engineering DIY channels, the sheer number of different solutions being brought in makes me so happy!~ I'll be looking forward to seeing the complete clock and it feels like it can't be that far off anymore! Which is it's own brand of exciting!
*@Ivan Miranda* 2:05 Example of use: In a metal workshop school, the metal lades has a gearbox, where one of the gears is made from plastic (instead of metal), so if (when) a student crashes the metal carver into the spinny thing, only the gear breaks & is easy to access & replace, instead of the entire machine breaking, especially to protect it from some hard to make part breaking.
Love it. The configurations for the coupling had me thinking "This would be a nice Advent of Code problem". The marble cyclone at the end is fantastic.
It has to be extremely mechanically complex in spirit of the project, so a giant rotating arm that will sweep the whole room and an auger to wick marbles to centre
@@ivanmirandawastaken This is a hilarious idea, and could be done with really "Dumb" control system where they just drive around randomly when they don't have a marble, and when one, by shear chance picks up a marble, have them drive towards some bright IR light source to drop it off when it gets close.
Every video you think, surely THIS is the video that the clock will be up and running, then Ivan explains a thing and we’re like “of course yeah, the thing” like we have clue what is going on. In the end though we’re glad because it means another video is bound to come out and we get to enjoy that one too
Our dude has been stuck with this over a year .. and is still producing more videos. Not only - has millions of views! My hat is off to your perseverance!
Ivan, I wanted to take a moment to say thank you for a very entertaining 2024. I love this series and I hope the new year brings many fun new engineering challenges so we can watch you solve them, as long as you're still having fun that is! Happy holidays, and have a happy new year!
Awesome, around 12 years ago, I made my own printer, and one of the first things I designed was a set of magnetic gears, thinking that it didn't exist yet. I might still have an old youtube video up showcasing them haha. Magnets + 3D printing opened up so much space to create magical ideas. I still keep coming up with new stuff daily. I love to see what you come up with next! I still remember watching your older videos like that one time you made a small rover that drove on the beach of La Concha Bay in San Sebastian when it came out. Good times!
an elegant solution, and a video made that suggest that you just kind of stumbled on to something that would handle the proper configuration on the first try. i love it.
Ivan, your positivity is simply infectious! Watching your videos creates within me the energy to get things done. I greatly appreciate the time and effort you've put into building and documenting this project. Thank you very much for allowing us to witness your triumphs and lessons.
At 15:27 in the outro, you can see one black marble going into a white channel. Maybe fully closing the channels would fix that issue. Right now, it is definitely a handy way to access the marbles, but this problem should still be addressed later to ensure consistency with the numbers. I just watched all the marble clock parts and subscribed! I love your content and immediately bought a 3D printer.
I both want this series to be over because the entire thing works flawlessly (and is going around the world to different science museums so people like me can see it), and I never want it to end because seeing the engineering behind every subprocess is incredibly fun.
I hope you have someplace in mind where this thing can go on public display (like a STEM museum or something) because it'd be a shame to build such a contraption and have it gather dust.
There are various machines I've seen that are basically giant marble runs. They often show up in airports as something to watch while you wait for the plane. I don't think that would work for a clock, though, especially one that's complicated enough that it might get the time wrong. You'd have to find somewhere that people aren't on a tight schedule, just like a museum.
There's something mechanical that is used in high torque conditions to open the clutch of a vehicle. In Italia or is called molla ragno. It Is a particular spring that opens a closed clutch depending from the applied torque. This is thought to avoid the wheel to slip on the asphalt (old mechanical approach used in high performance engines, for instance by Ducati superbike clutches) now replaced by more tunable electronic systems, but it works
15:08 My parents have a central vacuum system (like, the vacuum itself is in the garage and 2” PVC pipes were run throughout the house to little hole/outlets to plug a hose into the wall) and when we were kids, my dad made a similar vacuum tool with a 3 gal bucket and an old vacuum hose (from an old shop vac or something) that we could push the vacuum hose into one side of the bucket lid and vacuum up Lego pieces into the bucket with the old hose on the other side. There weren’t any filters, just gravity, so most of the dirt and dog hair would get picked up and carried out to the actual vacuum and we had a bucket of (mostly) clean Lego pieces to dump back into the Lego bin. He didn’t have a 3D printer back then (he still doesn’t. But I do, so I get sent things to print off), so aside from the hose and bucket, it was all wood and sealed with gaskets cut from old tire inner tubes.
I hope you know how much joy you brought me with the whole "o-o-o-o-o-o-o-o-o-o-o-o-wan" bit SuperVinlin (the inclusion of madables in the ad read was also hilarious LUL)
It was fascinating watching how you worked out how to build a magnetic torque limiter with automatic drive phase resync. Even so the amount of try fail try succeed "engineering" involved in this project is not only interesting but also a bit insane.
This is so cool??? I unironically LOVE a good failsafe, they’re so much more interesting to me than when people trying to build systems that can’t go wrong. It’s better than perfect, it’s SAFE
The magnet gap sequence (shown at 11:39) is a variation on the segmented numbers (sequence A002048 on the OEIS). Rather than starting with 1 (adjacent magnets), he starts with 2 (magnets with a gap of 1 between). So instead of going 1,2,4,5,8,10,14... He goes 2,3,4,6,8,11,12... ...except presumably because he made the wheel with 40 slots first, his sequence goes 2,3,4,6,8,8,9. This causes two possible misalignments not shown in the video - the two gaps of 8, and the gap of 2+3+4 with the 9. To have 7 magnets with no possible misalignments, he'd need 46 slots (or 44 if he started with two adjacent magnets).
Strangely, the sequence starting at 1 isn't always better. With 15 or 16 magnets, the sequence starting with 2 would need fewer slots, and with 17 magnets, both sequences would need 299 slots.
i love these videos so much. The editing, the personality, the cheerfulness and the legitimate brilliance. c: I'm not overly inclined to start building/making things myself (no where to put them for one) but I love watching people who share what they make, especially if it's clear they love doing it
Just when i thought i saw him create the most beautiful invention yet, he pulls out the marble vacuum without further explanation. Absolutely incredible.
Tu cerebro funciona de maneras que todavía no entiendo, es una maravilla ver cómo solucionas los problemas con soluciones más complejas que generan más problemas y aún así te funciona correctamente….eventualmente, es increíble
I hate to ask this, but what is either the second digit that updates every 10 seconds. I love to watch your journey and enjoy your approach in creating amazing things
this video just got you a new patreon.. I was near the tipping point and you just keep rocking! I can't wait to see more! Your sense of design is just awesome
When you said you were gonna throw a wrench in the thing and presumably do something to intentionally screw it up, I didn't expect you to literally stick a wrench into it. XD
You could even add some sort of sensor, electric or mechanical, that tells you when the magnetic torque limiter slips (and perhaps even how many times). This might help when debugging, or just testing performance consistency.
ya know... it's a good thing this guy has 3D printing. I shudder to think what he would be building if he only had a scalpel, a graveyard, and an assistant named Igor! ;)
that was brilliant. making sure there where only single couples of magnets that connected when its not in the locked position making all other positions equally weak in comparison meaning it will reset when it comes to the locking position :)
Used to have a clutch on conveyors for large clothes hangers systems. so on the face of 1 disc, you have a hole with a spring and on the top a ball bearing, then on the opposite side a groove the radius of the ball, face them against each other and presto. When the torque overcomes the spring pressure it slips and doesn't smash everything(or bend coat hangers in my case) and is easily tunable with different numbers of balls and springs on the face and different spring weights. Might be a nice idea!
thinking of the interesting use for shaped magnets or whatever they are called, so that only specific magnet pairs would attract, and would repel or not interact in all other cases, pair that with uneven spacings, and you could have a torque limiter which would run completely smoothly other than its magnetically locked position
My favourite series on TH-cam
for real
I agree
Agreed
Agreed. This series gives me the same joy that old Wintergatan videos did before it became whatever it is now.
this one and the P1, but that one just for the lulz
"One one one oneoneoneoneononeneoeone one" the best part of the video!
Oneoneoneoneoneoneoneoneoneoneoneoneoneoneoneone
wawawononewononaoun
As soon as you were talking about where to position each magnet so that they only match up in one position, I was thinking "prime numbers should come in handy here". I was very satisfied when I saw that the gaps between the magnets ended up to be 1, 2, 3, 5, 7 and 7.
Exactly. I was thinking either primes or fibonacci.
Yeah would fibonacci work? Phi is "the most irrational number" and the ratio between the fibonacci numbers approximates phi closer the higher you go
Came here to make this exact comment. Finally something in common between magnets and cicadas!
@@darrennew8211 The problem with fibonacci is that the wheel only had a very limited number of positions, and the way fibonacci scales, you would run out of room quite quickly.
He can use modular Golomb ruler or special case of Steiner system to specify such places without using bruteforce :-)
The year is 4172. Humanity has achieved functional immortality, all material needs cared for.
Ivan Miranda begins work on his marble nanosecond display
I'll wait for part 7x10^4 when he manages to make a machine that arranges subatomic particles without spilling them all over the floor.
by that time, the fundamental building blocks of everything might no longer be atoms, but marbles instead 😂
Meanwhile Wintergartan has finally completed the Marble Machine 9999
@@RatkingNyxu Hope I'm still alive in 2070 for the Wintergatan World Tour.
I can't wait for the second digit. 😂
I've loved these videos for a while, but the magnetic torque limiter which auto-realigns itself is on another level above the other mechanisms you've built for these projects. That feels like one you could patent and license out, it's such a brilliant solution.
I think that's been done already, but I totally agree.
Can't wait for the version that shows milliseconds.😂
Too soon
@@ivanmirandawastaken NAHH
Hope to see the seconds version soon.
There is still the digit for every ten seconds to come.
15 ball cannons that lunch the balls past a 10 hertz strobe light that illuminates the balls that are arranged into the current number as they pass.
I genuinely think you are a madman. My kind of madness though, it earned my subscription and I watch every video in the series as soon as it comes out. I hope you keep embracing the madness.
He definitely adds a new meaning to the phrase "loosing your marbles"... *cough*... I'll see myself out...
Madness?! THIS! IS! TH-cam! *kicks into comments*
mad genius
This series should be a must follow for students when it comes to problem solving. It is all about encountering issues and then needing to finding a solution and that means do not try to come up with the wheel, but find out who made the wheel and how it works and how you can implement it to solve your problem.
Jesus, this need to be shown to all engineering students. Love it!
Just wanted to say that I appreciate the thought you give to the aesthetics of your prints even while trying to solve complicated engineering issues.
Form is still following function, but that doesn't mean it can't also be beautiful while doing so.
the 7-magnet pattern you ended up with for the torque limiter reminds me of a few mathematical patterns - i'm not sure which would be closest off the top of my head, but it reminds me a bit of prime numbers, the fibonacci sequence, and the golden ratio
regardless, i'm looking forward to seeing this project continue - i'm confident you'll be able to make it work fully!
The gaps between the magnets are prime numbers. 1, 2, 3, 5, 7, 7 (I think the last one can be 7 instead of 11 because their aren't enough positions around the ring to have the magnets repeat positions on the 7s) (1 is not prime but the rest are)
@@ChilledOutGuildit’s not 2 it’s 3 no?
@@ChilledOutGuild There is actually a spot in which two magnets are aligned, 7 apart, that Ivan missed. It's at 11:44, but it's a bit hard to pause at the right moment. But indeed if he went with a 11 spacing you'd end up with the 5 spacing repeating one time because the wheel isn't large enough, so it can't be helped.
The whole time he was adjusting the spacing I was thinking "I bet prime number spacings are what he'll wind up with"
Glad to see someone else did the work of counting for me 😅
They're the prime numbers of measurement/Segmented numbers (OEIS A002048 - the numbers that are not the sum of any set of consecutive smaller terms), except indexed at 2 instead of 1.
The normal 1-indexed:
1,2,4,5,8,10,14,15,16,21...
And the 2-indexed used here:
2,3,4,6,8,11,12,16,17,20...
...except it wound up being a little off (his goes 2,3,4,6,8,8,9), presumably because he made the wheel first with only 40 slots, resulting in 2 extra overlapping sets of magnets that he didn't show - the two 8s, and then the 2+3+4 and 9.
To have 7 magnets with no possible overlaps, he'd need at least 46 slots, or 44 if he started with two adjacent magnets (so using the first sequence here).
Now this is my day better!
How you explain things is amazing!
You know a guy has lost a lot of his marbles when he makes a vacuum-marble-picker-upper...
I'm glad the magnet clutch worked out and you have a good spacing. To increase the strength later on, you can add more magnets, but with the opposite polarity facing out so that they won't be attracted to the magnets that are already placed.
An indexed magnetic torque limiter. That's wild and I love it!
12:02 Is the spacing of the final magnets ruled by prime numbers by any chance?
It looks like it, they are spaced with gaps of 1, 2, 3, 5, 7, 7 (last one may be a bit off, its covered by his hand)
I was thinking just the same 😄
They are primes, because there's only one way to line them up that many of them will match up. They have no common factors, which would cause there to be multiple ways to line them up.
Lego has also torque limiter gears. I don’t know how they work, but there are include in any Lego Technic Set to protect the motors. These gears exists with different Nm settings.
Those limiters aren't indexed, when they slip, they slip by a partial revolution, if that was put into place here, the first time the elevator slips it would fall out of sync with the rest of the clock and throw things out of alignment. This one is indexed, so when it slips, it waits for the rest of the revolution and falls back into alignment when it recouples. The single magnet coupling is insufficient to move the elevator, so since there is no coupling of multiple magnets until it completes a full revolution and re-engages all six pairs, you can call this torque limiter as being indexed, as it maintains alignment with the rest of the mechanism.
"After watching that, it will still make no sense to you" is like you're reading my mind😆 I'm loving this man!
This is honestly one of my favorite engineering DIY channels, the sheer number of different solutions being brought in makes me so happy!~ I'll be looking forward to seeing the complete clock and it feels like it can't be that far off anymore! Which is it's own brand of exciting!
I love the evil grin energy at 12:53 after you realize it won’t break and want to go for more.
*@Ivan Miranda*
2:05 Example of use: In a metal workshop school, the metal lades has a gearbox, where one of the gears is made from plastic (instead of metal), so if (when) a student crashes the metal carver into the spinny thing, only the gear breaks & is easy to access & replace, instead of the entire machine breaking, especially to protect it from some hard to make part breaking.
Love it. The configurations for the coupling had me thinking "This would be a nice Advent of Code problem".
The marble cyclone at the end is fantastic.
Had the same thought :)
That is insanely cool. You still need a little robots whose only task is to drive around picking up marbles.
It has to be extremely mechanically complex in spirit of the project, so a giant rotating arm that will sweep the whole room and an auger to wick marbles to centre
Hundreds of them!! And each robot only can pick one marble at a time!🤣
@@ivanmirandawastaken This is a hilarious idea, and could be done with really "Dumb" control system where they just drive around randomly when they don't have a marble, and when one, by shear chance picks up a marble, have them drive towards some bright IR light source to drop it off when it gets close.
@@ivanmirandawastakenand 4hey should look like the fork lift cars from the movie cars :)
thia feels like a children's program in the best way. i hope you inspire people to "go, and make something" . i love your marble clock series!
Absolutely incredible. I love that trademark Miranda over engineering!
You just can’t help but make things functional and beautiful.
The amount of engineering that goes into this is insane! All just to get seconds on your clock. Amazing work.
Every video you think, surely THIS is the video that the clock will be up and running, then Ivan explains a thing and we’re like “of course yeah, the thing” like we have clue what is going on.
In the end though we’re glad because it means another video is bound to come out and we get to enjoy that one too
Our dude has been stuck with this over a year .. and is still producing more videos. Not only - has millions of views!
My hat is off to your perseverance!
11:39 looking like fibonacci number
Ivan,
I wanted to take a moment to say thank you for a very entertaining 2024. I love this series and I hope the new year brings many fun new engineering challenges so we can watch you solve them, as long as you're still having fun that is!
Happy holidays, and have a happy new year!
Awesome, around 12 years ago, I made my own printer, and one of the first things I designed was a set of magnetic gears, thinking that it didn't exist yet. I might still have an old youtube video up showcasing them haha. Magnets + 3D printing opened up so much space to create magical ideas. I still keep coming up with new stuff daily. I love to see what you come up with next!
I still remember watching your older videos like that one time you made a small rover that drove on the beach of La Concha Bay in San Sebastian when it came out. Good times!
Fantastic. That magnetic, self resetting, torque limiter is pure genius. Loving this series.
I understand about 60% of what he's saying/doing, but I enjoy 100% of it. One of my favorite YT series.
8:27 I was almost afraid you would let us down . But you delivered another convaluted contraption 3D Printed master piece to measure the tork.
The magnetic torque limiter solution and your improvised torque meter really got me smiling, very very very ingenious
Great video! Love the series
an elegant solution, and a video made that suggest that you just kind of stumbled on to something that would handle the proper configuration on the first try. i love it.
Ivan, your positivity is simply infectious! Watching your videos creates within me the energy to get things done. I greatly appreciate the time and effort you've put into building and documenting this project. Thank you very much for allowing us to witness your triumphs and lessons.
Perhaps the best of this series so far. Great work.
Elegant design for your mag coupler! I love this series.
At 15:27 in the outro, you can see one black marble going into a white channel. Maybe fully closing the channels would fix that issue. Right now, it is definitely a handy way to access the marbles, but this problem should still be addressed later to ensure consistency with the numbers.
I just watched all the marble clock parts and subscribed! I love your content and immediately bought a 3D printer.
HELL YEAH! That attachment to the shop vac to pick up marbles is brilliant! VERY COOL!
I both want this series to be over because the entire thing works flawlessly (and is going around the world to different science museums so people like me can see it), and I never want it to end because seeing the engineering behind every subprocess is incredibly fun.
when you finish this incredible project you should give it to an art museum. so many others can admire your great work
I hope you have someplace in mind where this thing can go on public display (like a STEM museum or something) because it'd be a shame to build such a contraption and have it gather dust.
There are various machines I've seen that are basically giant marble runs. They often show up in airports as something to watch while you wait for the plane. I don't think that would work for a clock, though, especially one that's complicated enough that it might get the time wrong. You'd have to find somewhere that people aren't on a tight schedule, just like a museum.
This is absolutely brilliant! I love this design so much!
There's something mechanical that is used in high torque conditions to open the clutch of a vehicle. In Italia or is called molla ragno. It Is a particular spring that opens a closed clutch depending from the applied torque. This is thought to avoid the wheel to slip on the asphalt (old mechanical approach used in high performance engines, for instance by Ducati superbike clutches) now replaced by more tunable electronic systems, but it works
15:08 My parents have a central vacuum system (like, the vacuum itself is in the garage and 2” PVC pipes were run throughout the house to little hole/outlets to plug a hose into the wall) and when we were kids, my dad made a similar vacuum tool with a 3 gal bucket and an old vacuum hose (from an old shop vac or something) that we could push the vacuum hose into one side of the bucket lid and vacuum up Lego pieces into the bucket with the old hose on the other side. There weren’t any filters, just gravity, so most of the dirt and dog hair would get picked up and carried out to the actual vacuum and we had a bucket of (mostly) clean Lego pieces to dump back into the Lego bin. He didn’t have a 3D printer back then (he still doesn’t. But I do, so I get sent things to print off), so aside from the hose and bucket, it was all wood and sealed with gaskets cut from old tire inner tubes.
I hope you know how much joy you brought me with the whole "o-o-o-o-o-o-o-o-o-o-o-o-wan" bit SuperVinlin
(the inclusion of madables in the ad read was also hilarious LUL)
It was fascinating watching how you worked out how to build a magnetic torque limiter with automatic drive phase resync. Even so the amount of try fail try succeed "engineering" involved in this project is not only interesting but also a bit insane.
Doesn't matter why I enter TH-cam, if I see your thumbnail I click, your "craziness" is pure joy to me!
my favourite youtube series. Thank you Ivan!
Ivan you always take your projects to the next level. I love your innovation when designing, it's amazing how you work out all these issues.
I've been following the project since the beginning.
Now it really makes less sense and I love even more!
Keep up the good work, Ivan!
This is so cool??? I unironically LOVE a good failsafe, they’re so much more interesting to me than when people trying to build systems that can’t go wrong. It’s better than perfect, it’s SAFE
I love the torque limiter, but I think the vacuum attachment might be my favorite XD
This belongs in a Science Museum. Incredible work!
I love this project! Looking forward to seeing it complete
Sir, your 3D printing skillz are extraordinary! Awesome job!
When this things running I hear Powerhouse playing in the background. Really cool!
that torque limiter is sick and the your convoluted torque measurer is awesome, very satisfying to watch keep it up man
You can just see how much of a relief this was for him, happy to see where you’ll get when progress costs less of your sanity! 🎉
You can change the two magnet spaces to adjust the torque. You can make the bottom or the top shaft a variable spacer for the magnets.
The best 3d printing channel by far
Such a satisfying and elegant solution!
The easier quick n' dirty torque meter solution would be a lever arm plus a scale.
now that what i call progress. so impressed man.
This has gotten so complex. I love it.
Woo Hoo! Ivan is making steady progress!
So happy that I found this channel. This project is so interesting to watch. Thanks for the great content.
The magnet gap sequence (shown at 11:39) is a variation on the segmented numbers (sequence A002048 on the OEIS).
Rather than starting with 1 (adjacent magnets), he starts with 2 (magnets with a gap of 1 between).
So instead of going
1,2,4,5,8,10,14...
He goes
2,3,4,6,8,11,12...
...except presumably because he made the wheel with 40 slots first, his sequence goes 2,3,4,6,8,8,9. This causes two possible misalignments not shown in the video - the two gaps of 8, and the gap of 2+3+4 with the 9.
To have 7 magnets with no possible misalignments, he'd need 46 slots (or 44 if he started with two adjacent magnets).
Strangely, the sequence starting at 1 isn't always better. With 15 or 16 magnets, the sequence starting with 2 would need fewer slots, and with 17 magnets, both sequences would need 299 slots.
You are so smart, Ivan Miranda!
It is just awesome. That clutch is a great solution.
i love these videos so much. The editing, the personality, the cheerfulness and the legitimate brilliance. c: I'm not overly inclined to start building/making things myself (no where to put them for one) but I love watching people who share what they make, especially if it's clear they love doing it
The maniacal expression when you first saw it work was the best part of the video.
You make mechanical engineering seem so easy!
Your problem solving skill are absolutely amazing! I love it! I'm already excited for the next one, and I'm barely a minute into this episode.
Just when i thought i saw him create the most beautiful invention yet, he pulls out the marble vacuum without further explanation. Absolutely incredible.
I absolutely love this series, everything you come up with seems to fit perfectly, you are incredible keep it up!!
Tu cerebro funciona de maneras que todavía no entiendo, es una maravilla ver cómo solucionas los problemas con soluciones más complejas que generan más problemas y aún así te funciona correctamente….eventualmente, es increíble
Love your problem solving skill. Epic!
Getting tricked by the comments into a 10-month long project (so far) is crazy
I really like this series though, hopefully it'll be done before 2050!
I hate to ask this, but what is either the second digit that updates every 10 seconds.
I love to watch your journey and enjoy your approach in creating amazing things
this video just got you a new patreon.. I was near the tipping point and you just keep rocking!
I can't wait to see more! Your sense of design is just awesome
You could also add sensor to the torque limiter measuring rotation on both sides. If it slips, you can disable the motor.
When you said you were gonna throw a wrench in the thing and presumably do something to intentionally screw it up, I didn't expect you to literally stick a wrench into it. XD
You could even add some sort of sensor, electric or mechanical, that tells you when the magnetic torque limiter slips (and perhaps even how many times). This might help when debugging, or just testing performance consistency.
I think you just invented the first smart clutch! A really inspired idea!
ya know... it's a good thing this guy has 3D printing. I shudder to think what he would be building if he only had a scalpel, a graveyard, and an assistant named Igor! ;)
that was brilliant. making sure there where only single couples of magnets that connected when its not in the locked position making all other positions equally weak in comparison meaning it will reset when it comes to the locking position :)
Damn, that magnetic clutch is CLEVER!
I genuinely laughed out loud at the outro because it was so unusually chill 🤣
I just love this build! Keep on the work!
What a fantastic project man...
Used to have a clutch on conveyors for large clothes hangers systems. so on the face of 1 disc, you have a hole with a spring and on the top a ball bearing, then on the opposite side a groove the radius of the ball, face them against each other and presto. When the torque overcomes the spring pressure it slips and doesn't smash everything(or bend coat hangers in my case) and is easily tunable with different numbers of balls and springs on the face and different spring weights. Might be a nice idea!
Grabs Popcorn!! New Marble Clock Video!
thinking of the interesting use for shaped magnets or whatever they are called, so that only specific magnet pairs would attract, and would repel or not interact in all other cases, pair that with uneven spacings, and you could have a torque limiter which would run completely smoothly other than its magnetically locked position
Imagine a hotel with a clock like this
Being receptionist must be horrible with all the noise 😅
I can’t wait till you build the full complete version and put it in a museum