Here's a great initiative explanation from Daniel Walsh: kzread.info/dash/bejne/ZpmmlMSuebGudpM.html The sponsor is Incogni: : the first 100 people to use code SCIENCE at the link below will get 60% off: incogni.com/science

@cryingwater

8 ай бұрын

The golf ball's dimples caused this effect

@LtMooch

8 ай бұрын

Could you not put a mirror at a 45° angle above the cylinder and pull the frame of the highspeed camera back to see both angles at the same time?

@rolfsteffens7802

8 ай бұрын

Would an amplification video of a bridge with heavy traffic rolling over it or a skyscraper building swaying in the wind be of interest?

@Alecv628

8 ай бұрын

Motion amplification under electron microscope. Could you see atoms vibrating?

@Spy653

8 ай бұрын

would be fun to see what tree's or buildings look like in different levels of wind?

I have been conducting a version of this experiment for years, I can confirm that it’s impossible to get a golf ball to do anything you want it to do.

@aussiegolfer

8 ай бұрын

Truth!

@qa1e2r4

8 ай бұрын

Unless you are Tiger Woods? :D

@bogdy72000

8 ай бұрын

slap a mask and digital covid certificate on it and it will do everything you want it to :D

@Lessinath

8 ай бұрын

Going for the high score instead of the low score, huh?

@airplanes_aren.t_real

8 ай бұрын

​@@bogdy72000wtf?

Motion amplification on Musical instruments might be very interesting, to see the resonacne of the notes in the body of the instrument. to see what parts of a violin, piano or guitar move, also maybe for a flute or xylophone or something like a trumpet..

@maxximumb

8 ай бұрын

All parts of the instrument, not just the obvious parts. Maybe even the floor the piano sits on. Does a solid concrete floor change the sound a piano makes over a wooden floor?

@jcortese3300

8 ай бұрын

Oh yes, I'd love to see a harp soundboard.

@aaronstonebeat

8 ай бұрын

It was my first thought as soon as he said it👍 As a guitar player I say: guitar!!! Acoustic as well as solid body electric.

@StuffandThings_

8 ай бұрын

@@maxximumb Church organs! The cathedrals themselves help to create the classic organ sound. It would be so cool to see how a cathedral responds to organ playing!

@waszil

8 ай бұрын

Collab with @AskOlafTheViolinmaker, showing effects of soundpost placement would be fenomenal

There was a thing I saw where a camera focused on a bag of chips through a window could measure the vibrations that speech made on the bag in order to reconstruct voices inside the room the bag was in. I’d love to see that sort of thing amplified.

@oelboy

7 ай бұрын

That's the idea behind laser microphones

@greggv8

7 ай бұрын

@@oelboy it's why you aim a loud speaker at your window(s) to defeat laser microphones

@Quest4astro

7 ай бұрын

​@@greggv8or curtains

@endorphinparametric4132

6 ай бұрын

@@greggv8 I do that strictly for the tunes.

@PanglossDr

6 ай бұрын

That has been in use for surveillance for about 50 years.

I work on violins and bows and I would love to see motion amplification of a violin back and compare it with different shaped violins, to see if you can tell them apart visually as well as aurally. Maybe you could also test bows by sending a pulse down one and watching it resonate. You could compare different wood types and structures as well as densities and thicknesses.

@DensetsuTekina

5 ай бұрын

I play violin and would also love to see something like this or related

@nealharder

5 ай бұрын

I had a similar thought- but with other instruments as well- how much does a guitar body vibrate, or a grand piano?

@lukeroussy6479

5 ай бұрын

Was thinking about a very similar idea. Would be very interested to see how and where different brass instruments vibrate, and the more fine vibrations of a brass musicians embouchure!

If you use spheres coloured in yin-yang style (each hemisphere and its pole with contrasting colours), it may be possible to see if the axis of rotation stays consistent in the entire action on the slo-mo camera.

@mrhankey20

7 ай бұрын

I was thinking the same thing

@jessevennard2640

7 ай бұрын

Or just draw a couple lines around the ball

@vicenteherrera

7 ай бұрын

Draw several points all around the ball, like face motion capture for movies is made

@TheEgg185

7 ай бұрын

Yeah. Why didn't he just draw an equator around the ball.

@jayme3181

7 ай бұрын

@@TheEgg185 He's milking it for a second video.

One mirror over the top of the cylinder would give you two synchronized views.

@gabcuba

8 ай бұрын

Clever

@MeriaDuck

8 ай бұрын

Was just going to say that 😂

@just2607

8 ай бұрын

Or just film with two cameras that capture sound and clap to line them up

@jonathanodude6660

8 ай бұрын

sound of each camera might be off by a different amount.@@just2607

@nagualdesign

8 ай бұрын

​@@just2607 Just? 🤨

It would probably be easier to visualise what’s happening if you'd drawn three differently-coloured circles oriented peripendicularly to each other (like representing x, y, and z coordinate planes) on the ball. It would ease tracking rotation and direction in slow motion.

@I3ushmasteR

4 ай бұрын

same thought, I think lines can also work

Regarding your motion amplification camera: If you're still looking for ideas, I'd recommend small aircraft. I work at a flight school and it's always amazed me how the vibrations of the engine can ripple through the airframe and have an effect on parts which (to the human eye, at least) seem incredibly stable. It could useful to see the amplified difference between a "perfectly balanced" prop and one which is very nearly balanced.

@andrewberghorn5598

6 ай бұрын

Seconded

YES I HAVE AN IDEA! The motion amplification camera video was one of the most interesting so far, and it really jogged my brain. I would love to see which parts of an acoustic guitar vibrate the most when played. The entire body is a soundbox, but certain parts vibrate more than others, leading to differing ideas of how guitars should be braced internally to strike the balance between stability and resonance. In my experience with feeling the body while playing, the area around the bridge (understandably) feels like it resonates the most, whereas the areas surrounding the sound hole seem much less resonant. The whole idea may require a somewhat elaborate setup to hold the guitar very stable, but I think it could be a fascinating video.

@pdaddy_

8 ай бұрын

Great idea. Actually the parts that move most will change with different notes (fundamental frequencies) that are played. I would love to see this in action.

@Pho7on

8 ай бұрын

Or an electric guitar under amplification. We've already proven that tone is in the EQ and amplification stages but it would be cool to see.

@chasm9557

8 ай бұрын

I think the strings might vibrate the most, but I could be wrong.

@pdaddy_

8 ай бұрын

@@chasm9557 Yes, but the strings make a very small part of the sound. The top of an acoustic guitar is designed to move air because of the movement of the strings.

@thekingoffailure9967

8 ай бұрын

I would love to see the inside of a grand piano filmed. Especially because due to resonance, when you hit one note, many other strings start vibrating without being touched depending on their resonant frequency. Very cool

For the motion amplification, I would be interested to see how houses and surrounding area reacts when a train passes by. Like what effect is the train have as it is rolling across the tracks. We just moved into a house with a set of train tracks behind us and when the train passes by it feels like the whole house shakes sometimes.

@archaeologistify

8 ай бұрын

Yep, my parents house has tracks 20m behind it. When it passes by you can see water shaking in a glass.

@andrewemery4272

7 ай бұрын

It's called Living Next to an Effing Railway Line, what did you expect?

@ryanfrank1309

7 ай бұрын

​@@andrewemery4272bro the question is why it happens not if it happens.

@evilmonkeywithissues

7 ай бұрын

So most architecture has a natural amount of 'sway' to it that (for the most part) will resist heavy vibrations by lightly rocking with the vibrations. They intentionally build skyscrapers with a certain amount of vertical flexibility to account for wind and earthquakes, and in earthquake prone areas they build most buildings to lightly rock when heavy vibrations are present. Both types of architecture use this natural principle found in almost all types of structures. Certain types of material are naturally more flexible, even if they are seemingly rigid structures. Metal is more flexible than wood, wood is more flexible than concrete and brick, and so on. Essentially, when the train rolls through, it heavily vibrates the flexible metal tracks. Those vibrations spread through the ground and to the foundations of your home, and your home proceeds to lightly shake. It may seem like heavy shaking, but the structure as a whole is not moving that much, the flexibility of the structure makes it seem worse than it is, but also protects the home from falling to pieces.

@EdwardMillen

7 ай бұрын

Yeah that would be interesting! I used to live in a house with a railway line that went through a tunnel pretty much directly under it

Very impressive analysis . It's great that you take the time and effort to understand something that very few would give a second thought and then make what you discover available to us . Congratulations !

The closest thing I can come up with to an intuitive analogy for what may be going on is from playing with marble mazes as a child. If you throw a ball bearing around a funnel in an elliptical orbit, you get the same pattern. The ball keeps missing the hole in the funnel and running back up the other side. This shape makes intuitive sense. Now all we have to do to make what the ball accomplishes in the cylinder intuitive, is to slowly augment the shape of the funnel until the funnel *is* a cylinder. Even with the cylinder, the ball is attempting, and is, following an elliptical orbit and "missing" the hole at the bottom of the funnel and running back up the other side. The fact that this works with the completely vertical sides of a cylinder rather than the more angular sides of a funnel, and the fact that it's more difficult to intuit and elliptical orbit inside a cylinder, is where the bizarre intuition break happens.

It would cool to draw dots on the squash ball (or the smaller ball) to be able to track more precisely the axis of rotation (kind of like you get on some pool balls to illustrate the effect of spin).

@foreverspellman

8 ай бұрын

Yeah, I think that the action happens because it's a curved ball 'rolling' on a curved surface. With enough force applied to set the ball in a rolling motion, the curvature of the cylinder and the curvature of the ball makes it spin on a different axis, causing it to 'turn' while it rolls. This might be simple and i'm talking out loud, but that's the part i'm interested in

@bromero88

8 ай бұрын

@@foreverspellmanI think you're on to something. That's why the flat surface attempt fell flat. 🙃 This should have been a main response.

@4g0tten4

8 ай бұрын

Yes, I was wondering why he didn’t draw lines or dots on the balls to get a better “intuitive” grasp of what was going on as they spin around the cylinder.

@ModelLights

8 ай бұрын

@@4g0tten4 ' draw lines' Yep just saw this and the first thought on seeing it, small grooves with a bright color like 3 or 4 latitude lines would show what's going on much better. Especially the once in a while you got the lines basically in line with the roll direction of motion, you would easily see the steering that is going on besides just the rolling of the ball. It's there a little bit in the video, some tracking with the squash ball logo. But of course it would be much better with full lines.

@aggies11

8 ай бұрын

@@bromero88 I wonder if you had an much larger circumference cylinder, would this change? The larger the circle the more like a "flat" surface it should operate? Specifically the ratio of ball circumference to cylinder.

I guess the easiest way to figure out what happens should be painting the ball on equator and on poles, shouldn't it?

@ThomasBomb45

8 ай бұрын

if the axis of rotation changes, poles and equator would change, plus lining it all up at the beginning would be a huge challenge. but marking the ball in some way should let us see the rotation

@RealCadde

8 ай бұрын

You would paint a red line across the equator, a blue line across the 0 and 180 degree longitude and a green line across the 90 and 270 degree longitude.

@NicoMelone

8 ай бұрын

Just evenly cover the surface of the ball in dots then it shouldn’t really matter.

@uualrus

8 ай бұрын

You could paint it like a soccer ball

@smarty20two

8 ай бұрын

@@NicoMelone painting it may not yield the same results since the paint material might not display the same properties as the original surface. A line would be a much better idea. I think pronounced dots would be an even better idea! 6 or 10 dots to mark points 90 degrees apart and let the fun begin!

Suggestion for the motion amplification camera: The top of an acoustic steel string guitar. You should see the different modes of the guitar, changing by string and by note. The modes are very complex and would be really interesting to visualize.

My first instinct was that the ball is essentially bouncing with extra steps. The centripetal force gives enough friction againt the wall that it is able to elasticly return the downward component of your initial throw. The gyroscope effect keeps the ball from just rolling down the wall by limiting its ability to spin in that direction.

You could film the top and side view at the same time by filming from the top and putting an angled mirror in frame next to the tube to give you the side view. Kinda like the opposite of how they use a mirror to align two big cameras when they film 3D movies.

@b.s.864

8 ай бұрын

Or vice versa. film from the side with a mirror above for the top view. That way you don't have to get fancy with the camera mounting.

@DanteYewToob

8 ай бұрын

@@b.s.864 that’s probably easier… lol my brain just immediately jumps to the most complicated way to do things… “I have a flat tire.. let’s push the car over by that huge tree, and then someone bring me 5 pulleys, a snatchblock, some industrial chain and dyneema rope. I’ll need nine strong men and a Girl Scout…” “Or we can use the jack in the trunk…” “Oh… right. Yeah… that works too.” Haha

@b.s.864

7 ай бұрын

@@DanteYewToobWhich way is easier would be highly circumstantial. For instance the TV show Good Eats reportedly used the vertical camera option for many of it's cooking shots with a sliding mirror to switch to the host.

Put 3 stripes around the ball, 2 from top to bottom offset by 90 deg and a third around the “equator”. Each stripe has a different color. This will help show full motion range of the ball. You could also keep the strips solid color and instead color each of the 8 sections a different color. Then enlist the help of the slo mo guys to do a collaborative video about it.

@lobster7799

8 ай бұрын

Great idea

@AccidentalTradWife

7 ай бұрын

I love this!

@vigilantcosmicpenguin8721

7 ай бұрын

"enlist the help of the slo mo guys" should be on the to-do list of every single KZreadr, no matter what the video subject is.

@AmadeuShinChan

6 ай бұрын

Or use color, if the strips modify the rotation too much.

For the motion amplification camera, I think it'd be interesting to see motion in various sports contexts. How does a bat, hockey stick, or racket vibrate through impact? How does impact affect the ball? How about the human body? How do our muscles vibrate when running, jumping, swinging, etc.? Hopefully the macro motion doesn't cause any issue capturing the micro motion in these cases.

The intuitive explanation seems easy to come by and you nailed it I think. Conservation of angular momentum where imparted momentum eventually matches velocity at the contact point then through friction becomes an acceleration force through conservation of angular momentum while simultaneously and continuously sustaining additional conversion of velocity to angular momentum to match surface contact velocities at the tangential contact point.

The motion amplification camera is the coolest thing i've heard of in such a long time.

@MadderoftheFew

8 ай бұрын

to me it's super creepy for no discernable reason

@petervanderwaart1138

8 ай бұрын

I'm curious if it would show something with musical instruments, especially wind instruments like flutes and trumpets.

@wtmqwq

8 ай бұрын

@@petervanderwaart1138 great idea!

@Dragoon710

8 ай бұрын

@@petervanderwaart1138 will a camera meant to record vibrations be able to record instruments that work because of vibration? What do you think?

@Victorsandergamer

8 ай бұрын

​@@Dragoon710they're wondering what it would look like if the vibrations picked up by the camera are great enough, Sherlock

I'd like to see the motion amplification of an interior of a car, with the engine running. It would be especially interesting if there were some sort of buzzes or rattles in the dashboard. Hopefully the motion amplification could pinpoint where the noises were coming from, as it can be hard to locate with your ears.

@906MediaProductions

8 ай бұрын

Yes! I bet the rearview mirror goes bananas at certain rpms.

@karlhungus5395

8 ай бұрын

My RV gives me a headache on the road.

@LobstersLobsters

7 ай бұрын

The body panels on a classic muscle car idling probably do lots of wiggling

@vigilantcosmicpenguin8721

7 ай бұрын

I can't explain but I think that would be hilarious. Just seeing, like, the vroom, but visually.

@DampActionRC

7 ай бұрын

Was going to comment this but thankfully, that work has been done already. Please use this camera on the interior of an ICE vehicle on startup, and maybe also while running. Thanks Steve!

6:58 Wow! I didn't know that this RDI technology was a thing and it's fascinating. I'm so excited to watch your video on this topic that you mentioned. I love learning about something I've never considered before

Medhi recently made a video with aluminum foil balls, where he could have used the RDI technology, to see the small movements of the balls. You two should make a follow up video together about the phenomenon! I would love to watch it happen!

For motion amplification you could show cars at a subwoofer competition. It’d be fun to see how the people inside look with it

@ts4gv

7 ай бұрын

oh yeah that'd be funny to watch car trunks wiggle at 40hz

@johanvanstaden2408

7 ай бұрын

Many car related things: body panel deformation; tyre deformation and rebound; dragsters; race cars and bikes. Planes; suspensions; buildings flexing.

@marcgobern8258

7 ай бұрын

I had the same idea but with a rotatory subwoofer, wich can go down to 5Hz or even less. But that works best on a house i think. PD: Also rotatory subwoofers have a lot mor dBs

@darrylpioch2055

6 ай бұрын

At infrasonic frequencies they will generally produce much higher SPL that linear motor subwoofers. But at audible subsonic frequencies a traditional subwoofer will be superior for SPL and have much lower distortion. Modern competition winning builds for standard vehicles (not extreme vehicles) push over 160dB and on occasion even over 170dB which is physically unbearable for a human loll. Tap out territory is usually in the low 160s for most people. Extreme style vehicles get into the 180s but those can only a test tone to get those numbers. A rotary subwoofer allows for extremely high SPL at low frequencies because they ingenuously and blatantly violate ‘excursion law.’ (Not sure what to dub it). But essentially with a normal linear motor driver, for every halving of the frequency, you need four times the excursion to maintain the same SPL (assuming there is no role play by the enclosure, infinite baffle). A rotary subwoofer completely gets around that by introducing a time constant, since the blades can continuously move air in either direction and reproduce DC. If you cut the frequency in half, then the fan just has twice the amount of time to move the air, thus no more excursion law. And at 0Hz, the fan can just move air continuously in one direction, being the equivalent of infinite excursion

@darrylpioch2055

6 ай бұрын

That’d be awesome. Although some builds now are so ridiculous you wouldn't even need it 🤣🤣

For the Motion Amplification Cam, maybe a collab with Look Mum No Computer with the organ he repurposed at his place. There are some huge pipes that will oscilate when the air passes through them and you can fit dozens of these pipes in frame to see how the size affects the oscillations.

@dielaughing73

8 ай бұрын

That would be cool

@stamfordly6463

8 ай бұрын

That's a good idea. Gun barrels are another possibility, it's one thing to know theoretically that tiny pressure bulges travel up from breach to muzzle but it would be fascinating to actually see it.

@jeremywest9945

8 ай бұрын

Playing a chord would be fantastic. You could see the pipes go in and out of phase with one another, or explore beats with two similarly tuned pipes.

@Jemonov

8 ай бұрын

This would be hugely awesome collab on all levels.

@wkjagt

8 ай бұрын

Steve Mould and Look Mum No Computer definitely needs to happen.

@SteveMould, did you try applying the equations of orbital mechanics to it? Orbits are mathematically just sections of a cylinder. The motion of the ball looks a lot like a precessing orbital plane. The ball shooting out occurs when the trajectory matches e>1, which is what we use to slingshot spacecraft around planets.

Musical instruments for the vibrato camera would be extremely cool, especially woodwind instruments where it's kindof unclear where the sound actually happens; for strings its the strings, for brass its the bells, for woodwinds it's generally the tone holes but it would be nice to see that visualized.

Steve is the only person that can actually make me want to learn something I don’t need

@venomsabre2696

7 ай бұрын

sounds kinda similar to school, except there they make you not want to learn anything

@chrisfeldi

7 ай бұрын

ever played beerpong?

@InservioLetum

7 ай бұрын

Oh wow, you my friend are in for a loooooooong weekend when you discover Wikipedia

I think a cool object for motion amplification video would be a string instrument like a violin or a cello (Maybe a double bass depending on the maximum frequency of the camera) would be cool - there's a lot of engineering of the shapes of these instruments to control the harmonics of the sound. Also, you don't need 2 high speed cameras if you have a good mirror, that way you don't need to sync your camera streams Edit: Typo

@kgbmedia97

8 ай бұрын

I’d love to see that! The physics of amplifying low frequencies geometrically is also a really interesting topic.

@MNation69

8 ай бұрын

Yes please

@swirle13

8 ай бұрын

I can't picture how to position a mirror to get a horizontal view and a top down view with a single camera, can you explain?

@lvl99dh

8 ай бұрын

​@@swirle13put it at a ~45° angle from the camera (a little shallower for fov reasons) above the cylinder. It makes more sense if you draw arrows from the camera to the cylinder, you'll see that you have the direct path from the camera to the cylinder to see the hoz and then the mirror will bounce the view directly down the middle of the cylinder for the vert

@lachlantheobald1819

8 ай бұрын

@@swirle13 Sure: assuming that your camera has an aspect ratio somewhat similar to 16:9, point the camera vertically down with the top down shot taking up the right hand of the frame. If you position a mirror with its bottom edge touching the base of the cylinder you should have enough frame to get a somewhat reasonable shot of the side.

If you pay really close attention to the high speed shots, you can visually *see* the axis of rotation changing on the balls by watching their surface texture's spin. You'll notice that the axis seems to "flip" at that midpoint in the osclilation. If you take that initialy intuitive explanation of the ball's axis of rotation remaining the same as it travels around the cylinder, you can very clearly see that happening in every shot (its easier for the hollow ball shots, since its surface texture is less homogenous and easier to discern). But at just about the end of that first go-around you can see the ball very quickly and very suddenly flip its axis of rotation the other way, thuse steering the direction in which it spins. You can basically "trace" their movement along the cylinder and find that it very very closely mirrors that sort of up and down spinny rotation of a spun coin as it nears the end of its spin. The balls in this case are basically tracing the edge of that coin as it spins, first going in a Top-left/bottom-right diagonal and then a Top-right/bottom-left diagonal

@vinnie7121

Ай бұрын

Now you're making me think of Veritasium's video discussing the intermediate axis theorem. I know a sphere doesn't do that, but I'm pondering it. When Steve unrolled the cylinder I see that as an incomplete model as the diameter of the ball relative to the cylinder affects how the contact patch moves (as does the surface squishiness). Imagine a rounded motorbike tyre steering with the castor angle. Combining it with the coin rotation paradox and throw in this idea of gyroscopic axis preservation and I think he's come up with a pretty good way to visualise the concepts going on with this one. Anyone want to model or try the same thing with non-spherical rolling objects?

Hey Steve... Even though I don't play squash myself, I understand there are different grades of balls for 'Speed' and those graded balls react differently during the game of squash, as in, as they warm up with the constant hitting of rackets and the wall, they change their perameters of bounce etc... So.. Would different temperatures of the squash ball make a difference in 'Slippage'/grip when performing these tests within the perspex tube and thus adjust the ratio of rotation vs raising & lowering in height? ie a warm/hot squash ball vs cold??? 🤔😏 😎🇬🇧

Would love to see motion amplification of a 3D printer, to be able to see the different vibrations that occur as it moves around. A comparison between a cheap and expensive printer would be cool too!

@hadinossanosam4459

8 ай бұрын

Cool idea! I'd love to see a comparison of the different stepper drivers (A4988, DRV8825, TMC2130, TMC2208, etc.) as well, but that seems more like a CNC Kitchen video than a Steve Mould one

@andrewferguson6901

7 ай бұрын

​@@hadinossanosam4459oh that's a great review strategy

Usually papers don't have very intuitive math due to how many layers the information is on top of. What I think might be helpful is use the force diagram and simulate how it changes with each time frame. That might be a good place to start

@danthewalsh

7 ай бұрын

I’ve demystified the math here: kzread.info/dash/bejne/ZpmmlMSuebGudpM.htmlsi=dPlL8yD0K1UL-7lI

The behavior reminds me of a ball rolling into and out of a bowl. If it retains enough momentum, it'll pop back out; if not, it stays in the bowl, just rolling back and forth like a pendulum. I think you already gave us an intuitive explanation - the forward momentum leads the ball into the cylinder, the gyroscopic effect wants to roll the ball back out, the frictional force direction keeps changing in relation to the gyroscopic direction, and the three start negotiating with one another. Given enough momentum and a friendly angle, the resulting path begins oscillating between downward and upward. Great video!

Yes I want to see more with the motion amplification camera! I can think of so many industries and application where that could be extremely useful!

The idea for motion amplification is "How a transformer emit a high-pitched sound?" (if it can register such high frequencies). It might be quite interesting because AFAIK it's because a transformer physically changes its shape due to the magnetostriction effect on the transformer's core.

@2adamast

8 ай бұрын

50-60 hz base high frequency?

@banderzwierz

7 ай бұрын

@@2adamast I had in mind the high pitch that sometimes comes from phone charger or other electronics (it usually operates on much higher frequencies). But you're right, it can also be a low hum when it's directly connected to the outlet.

I think it would be helpful to track where the ball is in contact with the cylinder, and then draw/animate that path along the surface of the ball. It's not just rolling along a circular path along the circumference, and I think understanding that is important for an intuitive understanding. Also if you put markings on the ball so we can clearly see how it is actually oriented, that would help to understand/visualize what's goin on.

@JokeswithMitochondria

8 ай бұрын

Yepp

@sterlingarcher8041

8 ай бұрын

@@JokeswithMitochondria your username intrigued my curiosity so I went to your profile. Your entire channel is mood Imao

@Zebo12345678

8 ай бұрын

I'm curious about how that would trace in a hypothetical situation without gravity or friction. Would it make circuits around an ellipse? Would it gradually level out until it's moving around a circle? How does this behave if you isolate variables and change them one at a time?

@loremipsum8321

8 ай бұрын

I think from its perspective, the ball is simply traveling in a straight, 2 dimensional line. Cutting the tube open to rectangular shape should help visualize this. It doesn’t hit bottom part because the angle doesn’t allow it to, like shooting a cue ball through narrow space. It travels in a straight line as far as the angle allows, then it hits imaginary rectangle and bounce back.

@mikefochtman7164

8 ай бұрын

A good start to this would be to simply draw some stripes on the ball. Some design that would allow you to 'see' the spin with a high speed camera.

I can explain this rather easily, I think. The key to understanding what is happening between the ball and cylinder is in analyzing the relative motion of the core of the ball vs. the outside of the ball vs. the cylinder wall. Like a continuously-variable transmission, the pathway of contact determines the speed at which the ball rotates vs. the speed the center of the ball travels across the inside of the cylinder. From the balls' frame of reference, its pathway through the cylinder is no different than it would be through a cone. As the ball reaches a point in the pathway around the inside of the cylinder where it is spinning on a shorter line of longitude, the actual speed of the ball as it travels across the cylinder is at its lowest. Then as the inertia of the ball continues to push it around the cylinder, the longitude of the contact line on the ball grows larger, allowing more of the inertia stored up on the way down to be released into the cylinder wall, which in turn decreases the speed at which the ball is rotating while increasing the speed at which it is revolving around the center of an elliptic section of the cylinder. This increase in speed results in an increase in centrifugal force, which flings the ball *upward* because the downward direction was where it gathered the momentum.

How about a motion amplification of a city skyline or a very tall building district during a wind storm? It would be neat to actually see a building with a tuned mass dampener next to one without!

This reminds me of what happens sometimes in basketball where the equator of basketball gets really low on the rim but then the ball pops out anyway. Once I saw the ball go around the rim about 3 times before falling out instead of going through the hole.

@bromero88

8 ай бұрын

This might have more to do with the "applied" backspin from shooting the ball, but without a mechanism to launch the ball exactly the same into the cylinder each time there's going to be inadvertent spin added each time.

I would love to see the high speed camera applied to both the ball and club of a golfing tee-off. Great video as always Steve!

Steve - huge fan of your videos. The discussion around intuition is great. If you stripe the ball with a few colors, it would be most helpful to see the how the axis of rotation is influenced by the wall and rolling.

I've heard that up to 80% of the noise a passenger jet makes while in flight is fuselage/wing vibrations. I imagine this would be a massive task to turn into a video, but I think it could be incredibly cool.

@AHSEN.

7 ай бұрын

long cardboard box + 3D printed plane + EDF (or any other fan, but I like electronic ducted fans because they're absurdly powerful) 👀

I love following Steve on his journey from bewildering phenomenon to intuitive understanding.

@MarmaLloyd

8 ай бұрын

Edit: Didn't realize he was going to mention it during the video. Just recognized it I'm sat here trying to figure out why he still has the ball from an old mouse to hand?

You could allude to the carnival game where people are required to throw balls into a wide pail thats placed at a 45 - 60 degree angle, where the goal was to make the ball stay inside the pail. The trick was to throw the ball with some combination of a bit of spin or at an angle or an arc in such a way that the balls rotation and momentum is cancelled or negated after the first contact of the pail's sides.

Thank you for labelling the mold, I would never have guessed you were cast out of something that shape.

Motion Camera Idea: Oscillations of sky scrapers during wind storms. From external to internal support structure.

Minute amplification ideas: Bathrooms - curious to see how well built a bathroom is - turn on the water and see if there are any movements in the shower/bath. Cars, the car itself and the engine compartment - how does a car vibrate? Nailing up a picture on the wall - sometimes when you nail up a picture, you might popout an old drywall nail; would be interesting to see what vibrations are caused when nailing on a wall. Similarly, jumping on a 2nd story house - the other day my daughter started jumping with joy and I could feel the house framing move as we were on the 2nd floor.

@RJFerret

8 ай бұрын

This reminds me of throwing a tennis ball against the rear of my childhood house, my father asked me to stop and showed me how the opposite end of the front of the house, wood siding nails were loosening.

For the camera, have you thought of applying it to acoustics? I’ve seen some high school math projects about wavelength acoustics in pvc pipes at different sizes and widths. Would you be able to use the camera to show the differences in how the pipes vibrate at different notes and octaves?

I believe you can simplify this issue with a rubber ball bouncing in a rectangular tunnel. You bounce it off of the floor such that it hits a wall, then bounces off of the ceiling. The first two impacts will convert some of the momentum into spin. When it hits the ceiling, the spin induced by the impact with the floor will exceed the remaining forward momentum, driving the ball back to you. For extra credit, can you tell me why the ball won't hit the other wall?

id like to see a motion amplification video of a jackhammer, where something is actually intended to break, to see if it can predict where stuff breaks

I wonder if you could develop some little magnetic "kicker" to give a tiny bit of energy at the bottom of its oscillation, to keep it going indefinitely, similar to those kinetic magnetic desk toys. I would absolutely love to have something like that as a desk toy.

@MrTweetyhack

8 ай бұрын

there's a seller

@m8e

8 ай бұрын

Could work with a lighter ball(table tennis ball?) and a fan. The fan makes a vortex so the ball keep spinning, airflow upwards cancels out gravity.

@hugofontes5708

8 ай бұрын

​@@m8ejust gotta keep the momentum going so it keeps spinning as well

@Makes_me_wonder

8 ай бұрын

The big version shown in the video moves fast enough already. A desk toy sized one would move too fast to admire and wouldn't look *cool*

@jayantchoudhary1495

8 ай бұрын

It might be possible if we put the motor inside the ball (similar to electronic bablade)and power it through induction.

its easy to think a constant force means constant rate of precession, but not so, it has to accelerate, in steady state yes a constant force means constant precession to maintain conservation of angular momentum, but when it is changing its a bit different, that is where the delay in the non slip case comes from i think. when you arrive at the bottom you have the maximum rate of precession steering upward but 0 rate of change in the rate of precession plus the change in rate of precession from gravity it the rate of change of precession from gravity is always just depending on the angle between the vertical and the direction of motion inside the cylinder, its maximal when the ball rolls fast and the angle is flat and parallel with the circular direction, but at some speed and downward trajectory the delayed rate of precession when you reach parallel trajectory tangent with the circular horizontal direction it is smaller than the upward steering change in precession causing a decrease in the steephood of the trajectory eventually leading to the ball going up again. roughly speaking. i think the intuitive hurdle is basically too get this idea of a torque on a gyro leading to a specific rate of precession out of your head and relearn what happens to a gyro when a torque is applied. you can solve it exactly for the case with no gravity and then think of the height as a change between different solutions to the no external force problem. so as you go down in the potential its a continous transformation into instantanious parts of different non external force solutions. not very intuetive perhaps but its real and true. then the moment of inerta and the hight determines the speed at soem height, and the speed gives you a trajectory for an orbit without any force correpsonding to a small change, like gravity only acted for a breif moment and changed one no external force solution into another non external force solution with the same angles and speed at that point to as you go down it corresponds to the same angle solutions with more velocity and angular momentum correpsonding to different derrivatives, and so you can derrive a change in the changes and get ready to do some crazy maths lol :P. sorry for typos or mistakes.

I've seen this relationship of sine wave (wave cycles) and cylinder only recently! There's an architectural video about how if you roll a paper with a sin wave cut from it, the roll will become a cylinder with a pointy top. This idea was used to cut metal strips into perfectly angled pipes!

Put a mirror over the cylinder? This way the camera sees both

@SteveMould

8 ай бұрын

That's a really good suggestion

@marbleop9881

8 ай бұрын

​@@SteveMouldor maybe under the cylinder standing on a transparent table. Less chance of breaking a mirror with a mouse ball ^^

@HunterJE

8 ай бұрын

Hah was typing up this same reply then thought "should just ctrl-F 'mirror' first" - turns out we Mould viewers are all similarly resourceful!

Happens with basketball hoops as well, though I’m guessing spin and physical grip has more to do with it in that case.

@user-us3cb2oq9c

8 ай бұрын

Bingo

@loganrussell48

8 ай бұрын

Also, the point of contact of the basketball on the rim is different than in the examples here. Flipping the point of reference, it's almost like the cylinder(rim) is spinning around the ball

Your intuitive explanation was the first thing I thought of, and I also noticed that the answer is incomplete because we don't take into account the slight shift in the axis of rotation due to friction and inertia resisting the pull. However, when the tube was on its side, it did behave very similar to what I intuitively thought was happening for both hollow and solid balls. What if in a gravity-free environment the ratio is exactly 1, and it's gravity pulling it down, leveraging on the ball at the point it touches the wall (like a lever where the pivot is the point where it touches the wall and the force is applied somewhere at the centre of gravity)? Maybe on its side, the tube has less of an effect on the ball due to gravity because the wall is only perpendicular to the ground (in direction of gravity) at 2 points on the circle, and everything else is a slope.

By 1:54 i had a theory: the initial 1/3 circle trip around the cylinder imparts a rotation on the ball, and the axis of rotation is something that doesn't tend to change. What's different about the flat version is that as the ball travels in the cylinder, its rotation relative to the point of contact is changing, which means the initial falling spin will kick the ball upwards when it reaches the opposite side of the wall

I've never heard of a motion amplification camera but now I need one! I'd love to see musical instruments, such as guitar strings, drum heads, or even brass instruments!

@ericwazhung

8 ай бұрын

a guitar string lit by a CRT TV can be quite a sight... strobe lights also do nicely and aren't difficult to achieve with LEDs

@sophiegrey9576

8 ай бұрын

I've seen a few guitar string recordings by what I think were motion amplification cameras before. It was really cool.

If you ever need 2 high speed cameras you can always use a mirror ;) saves me loads of money.

It looks like the ball is traveling on a wave wrapped around the cylinder. And the ball changes directions due to a combination of a peak in relative g force, and curvature that then with friction carries the ball up. The curvature seems to be acting like a catalyst by causing the ball to slow is decent into the cylinder by changing the g force and gently moving its angular momentum up, and then in tandem with appropriate friction, speed, and ball squishyness (which probably helps with friction), the ball starts to stick its way up the cylinder to complete the wave with whatever energy it has left. (Basically the curving cylinder seems to be changing the acceleration down by slowing it, but also the curving increases friction by g force, but then the speed is at its peak at the bottem of the wave and with all this extra friction/grip/GeForce, speed and a decreasing acceleration down into the cylinder, AND the cylinder still being cylindrical the speed with all the other stuff mention it's able to climb out/up. I'd imagine it's how when race cars turn they can turn easier when the track turns/banks inside the curve, it let's them hit faster speeds at sharper angles.

I think it might be easier to explain as the ratio isn't 1:1 because the wall of the cylinder applies a torque on the ball. That torque has a different effect on the ratio based on the moment of inertia of the ball.

Could you possibly use your motion amplification camera on a roadway bridge? Not sure what the lenses & technology allow, but it'd be cool to see a suspension bridge, or even just a standard concrete overpass flex as cars go over.

@Flopsaurus

8 ай бұрын

I was thinking this too! A bridge would be really cool to see

@lessefrost

8 ай бұрын

I'd be curious to see the difference in vibration management between older bridges and newer ones if it was possible. Maybe even more modern earthquake resistant bridges and structures.

@RDITechnologies

8 ай бұрын

Our CEO took this bridge video a few years ago! kzread.info/dash/bejne/i4Cg2dODhLrWZcY.html Makes you think..

@brentshanahan947

8 ай бұрын

Doing it with people walking across smaller pedestrian bridges would be interesting to see as well.

Hard drives vibrating can be a problem in server settings (hence the need for server grade hard drives). Could be interesting to see how much they actually vibrate :)

@thomasmclean9406

8 ай бұрын

Would motion amplication show much much they vibrate? I thought it would just highlight the parts that are moving?

I would love to see the motion amplification of stringed musical instruments. Acoustic guitar vs solid body electric vs a ukulele or violin etc.

you can think of a gyro with a constant precession rate as generating a force in the opposing direction, so apply a constant torque to a gyro and its rate of precession will accelerate until the rotation rate of the angular momentum axis will produce a torque that opposes perfectly the onoe applied, if that makes sense, parsed poorly, but thats the idea, so a rotating rotation vector corresponds to a torque with a rotation direction, so its kind of what corresponds to two different parpendicular axsheeesh of rotation combined together, which is the kind of path the your fingertips trace out when doing the 720 rotation trick. so in the rotating frame of the gyros angular momentum there will be a touqe 90 degrees of both of the rotation axis that have angular frequency, so this torque can be balanced with your finger for example in free space but then you ofc accelerate the whole setup as well so in a steady state you are doing work on the linear velocity. in the real world you are accelerating and not in a steady state, thats why the intuition of constant rate constant force decives you.

We had a similar problem in our lab where we needed 2 slow motion cameras (we didn't) so we used a tilted mirror. It worked. Nice video

3:34 Have you considered spraying a hollow ball with something like Testors Dulcoate? Magicians sometimes use it on playing cards to increase friction between two cards. Great video, as always.

Top notch work and easy to understand presentations.

It would be cool to see the vibrations of a musical instrument like a drum or guitar to where the sound comes from in different instruments.

I'd love to see the motion camera filming various types of bridges such as suspension bridges and cantilever bridges. There are three different bridge types where I live and I've noticed, during rush hour commute, that when I put my foot down (on my motorcycle) that the cantilever bridge I cross bounces imperceptibly.

@GregConquest

7 ай бұрын

... bounces perceptibly. If imperceptible, you wouldn't be able to feel the vibrations when you put your foot down. And yeah, I'd like to see bridges' vibration patterns too.

@Jeep_God1998

7 ай бұрын

I second this notion

@rapscalliana

7 ай бұрын

I first this notion.@@Jeep_God1998

@cereberus99

7 ай бұрын

*bounces imperceptibly to the naked eye@@GregConquest

@erink476

7 ай бұрын

huh, I've noticed that too. There's a road where I live where one direction of traffic crosses the river on a steel truss bridge, and the other direction crosses on a concrete slab bridge, and I can definitely feel movement if I stop on the steel one. It's a little alarming at times, especially since I know that bridge is pretty old.

in terms of the motion amplification camera, i'd love to see ordinary everyday things that people might have at home using it, things like laptops, fans, printer, computer/tv speakers, faucet/tap, kitchen/bathroom pipes, washing machine, microwave, refrigerator, etc. Would be nice to know how much these types of things move over time, what parts may need replacing or something you think should move doesn't move at all

one of the best channel on this platform, ever. Thank you again!

regarding the motion amplification - guitar/violin strings or a wineglass while sliding the finger across the rim to make it sing (or while someone hits a note to make it shatter) pc watercooling loop maybe?

I feel like with a specifically marked ball and a fast enough camera you'd be able to plot the exact movement of the ball itself and extrapolate from that. Get Gav and Dan in here

Once you commented on the density of the inner sphere of the mouse ball, I couldn't stay focused as my mind instantly began shooting out ideas. I began thinking about huge acrylic cylinders with beach-ball sized foam filled balls with an ultra-dense material like tungsten forming a very tightly condensed inner sphere. Or once the mathematical formulas have been worked out, putting the material of a neutron star as an inner sphere into the gravity well shaped cylinder... Damn, you really might be onto something here. Sadly, both my understanding of physics and math suck so badly I couldn't assist in either way, except providing strange ideas once it was conveyed to me in an interesting but simple enough way.

2nd derivative of angular momentum of the ball and the change in the tangent plane of the contact point is important, so every upward angle tends to steer the ball down and the other way around, but with a delay. the intuition is like a drives who is trying to correct over steering but trying too hard and never ending up quite straight.

For the camera motion amplification, id suggest filming the processes of cnc or manual machinery. Theres alot of complications when it comes to cutting metal.

@maxximumb

8 ай бұрын

Maybe do a collaboration with a machine shop and see how much the tooling or metal flexes during a milling operation.

@Drinq_Duq

8 ай бұрын

@@maxximumb Exactly what I was thinking! If the camera was developed for industrial applications in mind, it would be mesmerizing to see the subtle flexes and chatter!

Motion amplification idea: Saxophone. I play bari sax, and I can feel the instrument vibrating differently as I change the notes, especially in the lower register. I assume there are nodes along the brass. I would love to see that!

@dunda563

8 ай бұрын

Oh of course, any instrument would be really cool to see!

Based on your explanation and the slow motion footage, the best way I think I could explain it is similar to your explanation. As you throw the ball into the cylinder, it'll instantly encounter friction against the wall of the cylinder and begin rolling in the direction you threw it. But then, due to the curvature of the cylinder, it'll "roll" (actually slipping) around to the other side, and with your same naive assumption that the axis of rotation stays the same, the ball's original rolling rotation will now be rolling against the direction of its movement and start rolling back up the cylinder. One experiment that might be an extreme example of this is throwing a bouncy ball under a table. You might have done a video on this before, but if you throw a bouncy ball under a table, it'll hit the floor and begin spinning forward. Then as it bounces up, still spinning forward, it hits the underside of the table and instantly gets thrown back out from under the table in the direction you threw it because the forward spin hitting the table produces a backwards frictional force that causes it to bounce back. At least that's how I understand it and it seems like an extreme version of a cylinder. With the cylinder, you then have to account for the spin of the ball constantly trying to match the direction of the ball's tangential movement along the cylinder walls.

I would say it's behaving with a wave motion like a ball rolling over a bunch of hills except the hills are rolled up in a tube so when it goes down one hill it rise up the next hill reversing it's direction but maintaining it's spin and momentum so if you unrolled the tube into 4 small hills and valleys you get a wave function. So it's a wave function of a parabolic arc as translated by a cylinder or as described by a cylinder maybe it'll follow the same path as a ball rolling over smaller and smaller hills diminishing at an exact rate depending on the weight to friction ratio of the ball

I wonder if there’s a contributing factor in that, as the ball travels around the cylinder, the side of the ball which is in contact with the cylinder oscillates to either side of its effective equator, thereby changing the direction in which the friction force is applied? The gyroscopic effect would ensure the orientation stays the same, but the moving line of friction would determine the path, in a similar way to how a train wheel’s flange allows two wheels to roll at different speeds despite having a fixed axle.

it will be cool to observe the oscillations of grandstands at a football (UK term) match. Having a visual of the dynamic loading will be interesting to see

@RDITechnologies

8 ай бұрын

Using Motion Amplification in a stadium is a great idea! So much movement to see!

Awesome video! I love how you depicted the mental progression towards a hand wavey model (and I totally buy the hand wavey model you came up with!) gotta send this to my mom who golfs a lot…

@danthewalsh

7 ай бұрын

To augment the hand-wavy model, you can consider how the axis of rotation will pivot as a result of the friction force from the wall. You can see animations and an explanation of this here: kzread.info/dash/bejne/ZpmmlMSuebGudpM.htmlsi=dPlL8yD0K1UL-7lI

I imagine a high friction disk or ring would have a similar effect in a cylinder, and the explanation that the direction of travel around the cylinder matching the plane of rotation would make sense. I wonder if, in a ideal setting where gravity and air resistance weren't factors, if you could adjust the ratio of oscillations per rotation by simply adjusting how concentrated the mass is from the center or edge of the ring/disk. And would it behave the same if the center of mass wasn't centered in the object?

Absolutely the amplification of vibration videos sound super interesting.

It'd be interesting to see this experiment done in space.

@blackseac

8 ай бұрын

Well as he showed that gravity isn’t a major factor, doing it in space won’t be that interesting…

@space.youtube

8 ай бұрын

Yeah nah, I'm not down with that.

@elmeradams8781

8 ай бұрын

I'd like to see

@shrub9677

8 ай бұрын

if it has nothing to do with gravity then it wouldnt really be all that different in space

@mr22guy

8 ай бұрын

Yes, with no air resistance and ideal coatings on the cylinder and ball, would be interesting. Steve, get a vacuum chamber!

Hi Steve ! IDEA I would love to see : motion amplification of the modes of vibration of a guitar top, a little bit like Chladni patterns. And then try other kinds of instruments to see how they behave differently.

@joeshmoe7967

7 ай бұрын

Sound boards and drum skins would be cool. Especially in reference to the notes being played.

@stefanfyhn4668

7 ай бұрын

I was thinking looking at what happens at the nut and bridge/saddles perhaps on electric guitars and see what the vibrational relations between the body and strings is.

I think what gets in the way of your intuitive explanation is the fact that the radius from center of ball to contact point is not perpendicular to the "previous" axis of rotation, and that is what is forcing it to rotate.

Hey! A billard-cue hitting the cueball looks awesome in slowmo. Also a pickup on an vinyl LP is pretty cool!

I would love to see the motion amplification pointed at some electronics or a PC's internals. Something we think of as being completely still when in operation. Would be amazing to see if there was some vibrations.

@serphorus

8 ай бұрын

You would only see motion in a few components, mainly Relays, Hard drives, and things that are designed to move. Everything else is just chemistry, electricity messing with the conductivity of silicon to move other electricity around (these are called Solid State components, because they are completely solid. There are exactly zero moving parts.). Hard drives have magnetic disks inside that spin really fast and store the data, relays are mechanical switches that click on or off based on electricity, and you know what a motor does. That doesn't mean that like the wind or the desk wouldn't be moving though.

@stefanl5183

8 ай бұрын

@@serphorus Ever hear of coil whine? How about transformers humming when under load? Listen to a microwave oven while it's running. That hum you will hear comes from the transformer that provides the high voltage to the magnetron. Sometimes things that aren't "designed to move" as you say, do in fact move a little bit.

That motion amplification camera is so cool, never thought of one being a thing, but sounds super useful! I would be curious to see the affects of sound waves (Or different frequencies) has on objects. Maybe to demonstate a resonant frequency?

@Parkerdeal

8 ай бұрын

That's a super neat idea! Would be very interested in that, myself.

6:56 is going to revolutionary I'm a structual welder and I go to all types of different shutdown around the US for huge industrial power plants and of all the inspections we do like X-rays, we basically mainly check the areas where we know there is vibrations. I would love to see minute vibrations of how a welding machine like a Miller or Lincoln Electric or even a small horsepower engine. Large production factories mount those welding machine onto the structural supports and I've always wondered how much of a causation it has to the beams

0:07: 🤔 The video discusses the phenomenon of a ball being thrown into a cylinder and coming back out again, exploring the concept of centrifugal force and gravity. 2:23: 🎥 The video discusses the ratio of turns between a ball and a cylinder and relates it to the turntable paradox. 4:55: 🔍 The video discusses the ratio between the wall thickness and the square root of a squash ball, as well as the ratio for a mouse ball, and suggests possible explanations for the differences. 7:32: 🎥 The video explains the intuitive explanation of the gyroscopic effect on a ball thrown in a cylinder. 9:56: 📚 The video discusses data brokers and how Incognido helps individuals protect their data. Recap by Tammy AI

@ambition112

7 ай бұрын

Thanks for saving time! Amazing summary tool with lovely time stamps!~ where u download this Tammy AI?

As always, I enjoy seeing your videos and detailed explanations. Thanks for that! Regarding the fact that you have only one high-speed camera, using mirrors you can create a "split screen" which will allow you to see both the side view and the top view in the same frame.

A video of a hard disk drive with its case open with motion amplification would be interesting!

For the motion amplification, a really good use would be cardiac physiology. Highlight things like the subtle motion of the cardiac apex under the chest wall or even better, the dreaded waves of the carotid pulse.

@robtilley8922

7 ай бұрын

Another fantastic idea. As a retired physician I could see both general interest and a potential clinical application!

Ok, the horizontal experiment is interesting because with no "downward" force the rotation to oscillation ratio is much closer to 1:1. In fact, the ball leaves the cylinder at almost the same point that it enters. I'm guessing that the difference between the entry point to the exit is the fact that the ball didn't have any rotation before it came into contact with the the cylinder wall. (At least no rotation that would account for the oscillation.)