Weird Surface Tension - Sixty Symbols

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  • Опубликовано: 21 ноя 2024

Комментарии • 683

  • @dormirenonpotest
    @dormirenonpotest 9 лет назад +30

    At first I thought granular dynamics sounded really boring, but the more of this guy's work I see, the more interesting it gets.

  • @maartendj2724
    @maartendj2724 9 лет назад +46

    Turns out there are also big mysteries in physics which are NOT about quantum events, multiverses, the origin of everything etc., stuff we thought we knew turns out te be mysterious as well! Science at its best :D

    • @mikhailmikhailov8781
      @mikhailmikhailov8781 5 лет назад +2

      Classical mechanics isnt an easy topic by any possible means.

  • @sixtysymbols
    @sixtysymbols  12 лет назад +2

    Well glad you found it!

  • @RimstarOrg
    @RimstarOrg 12 лет назад +2

    8:34 I thought there would always be brazil nuts at the top because his cereal is shaken in a gravitational field. The small bits have an easier time finding gaps they can fall down through so the cereal ends up being stratified by particle size. The same with rocks floating to the surface when they're in an environment with sufficient vibration and low viscosity. Don't know if that's right but that was always my understanding. I wonder how his cereal would be in a microgravity environment?

  • @TheGreyfoo
    @TheGreyfoo 12 лет назад

    A brilliant, throught-provoking piece. Congratulations to Roger and James on recognition of their research!

  • @Kram1032
    @Kram1032 12 лет назад

    Thanks a lot for doing this, Brady.
    And thanks professors of nottingham for being so open and taking your time to give insight like that!

  • @maitland1007
    @maitland1007 12 лет назад +1

    Thanks so much for sharing your research with the public like this.

  • @eeellbee
    @eeellbee 12 лет назад

    Thanks for the prompt reply, that's fantastic news - great to hear. I was going to say wish him luck from me, but it sounds like James will not need it. It is wonderful to see you on video again too Professor, your passion for physics and compassion for others is very uplifting to see.

  • @johnrae4529
    @johnrae4529 12 лет назад

    A few things...
    1) Congratulations!
    2) Perhaps in another episode talk about the applications/implications of the experiment.
    3) The organization of the sand reminds me of WMAP pictures.
    4) Could this surface tension experiment be caused by quantum gravity?
    Keep up the good work guys!

  • @sixtysymbols
    @sixtysymbols  12 лет назад +1

    I'm no expert - but these aren't molecules, they're (on the atomic scale) great big pieces of copper and they certainly make noise when they rattle around!

  • @Kram1032
    @Kram1032 12 лет назад

    Amazing stuff! I wish more people would report about cutting edge research like this, directly interviewing the very people who research it.
    I'd also love to see a more advanced explanation of it all. These two videos are perfect to make me super-interested. Now I'd love to hear more details.

  • @sixtysymbols
    @sixtysymbols  12 лет назад

    The extra footage is not yet live - it will be on the nottinghamscience channel where most of my "extras" go!

  • @jakevikoren
    @jakevikoren 12 лет назад

    Absolutely incredible! As a college physics major I look forward to working on these problems!

  • @MrMichaelEdie
    @MrMichaelEdie 12 лет назад

    James and Roger's videos are my favorite!

  • @gumenski
    @gumenski 10 лет назад +51

    Did the graphic at 6:13 mindfuck anyone else or am I just that tipsy right now? Like, I . . . what

    • @techy4198
      @techy4198 9 лет назад +3

      gumenski It's just scaled weirdly. If you stretched it up vertically or squashed it horizontally, to make the video more of a square shape, then your brain would find it much easier to figure out what perspective it's from.

    • @Triantalex
      @Triantalex 5 месяцев назад

      No, noone else.

  • @eeellbee
    @eeellbee 12 лет назад

    Hi "sixtysymbols" is that you Brady?? Great to see Prof. Bowley and James in a video again. It's uplifting to see they are leaving their mark on the world. I was wondering how did James go with his PhD, I remember watching a video where he so generously gave us an insight into his personal life and explained how he was hand writing it. Has he finished yet??

  • @WhitentonMike
    @WhitentonMike 12 лет назад

    You're thinking of the vibration nodes experiment. A very different effect due to the lower frequency of the vibrations. One was about standing waves in 2 dimensions and the patterns they make. This is about the interaction of the particles without standing waves or nodes. The patterns will always change in this experiment.

  • @MrOldprof
    @MrOldprof 12 лет назад

    Yours is a very good description of surface tension arising from forces between molecules. Knowing how molecules behave gives us a way of understanding surface tension.
    But grains of bronze do not have such forces. Their surface tension emerges from the collective motion of all the particles so that, in the interface region, the kinetic energy component parallel to the interface is not the same as the kinetic energy component perpendicular to the surface. This is our new idea.

  • @Saki630
    @Saki630 10 лет назад +18

    Are you sure that those cows did not make it into the journal? That was a great animation.

  • @pouelchnu
    @pouelchnu 12 лет назад

    Thanks for clarifying this. I come from the field of electrical engineering, and sadly, we too often take things for granted. I just hadn't realized there was until now no real theory behind these patterns.

  • @EamonBurke
    @EamonBurke 12 лет назад

    I think the reason this experiment is relevant is because the pattern is displaying Spinodal Decomposition, not just a visualization of the well-documented nodal patterns in Chladni Plates.

  • @MrOldprof
    @MrOldprof 12 лет назад

    The experiment was done many times and after mastering the method we took 20 runs that had no flaws in them --- for example if the cell is not level the centre of mass of all the grains drifts to one side so we excluded those runs.
    The locations were always different.

  • @mynameismatt2010
    @mynameismatt2010 12 лет назад

    I watched a video recently about how a foam pattern can be measured at every observable scale, from a molecular reference to an interstellar reference we see these polygons forming patterns, and I can't help but notice the similarity between that, and the first picture he showed of the bronze 1/3 of a second after the vibrations started.

  • @Stue-e
    @Stue-e 12 лет назад

    the experiment was based on previous experiments with ferrous liquids and just water in a closed box with varied levels of hertz pumped though. the expected reaction for liquids is to stick together, its chemical. and so when they are shaken, we see patterns depending on the level of hertz. with dry granules, there is no chemical bond between each other, so they don't try to clump together. so its just the context of the experiment which explains why testing environments don't affect the result.

  • @MrOldprof
    @MrOldprof 12 лет назад

    If the bronze particles are too small then air certainly has an effect. We chose the grains so that they were sufficiently large that we hoped the air effects were negligible.
    The computer simulations were based on the idea that the air effects were negligible, so we only included inelastic collisions between spheres. The behaviour shown in the simulations reproduces what is observed in experiment.
    Trying to create a vacuum in the cell caused the glass cell to implode.

  • @DrDeeDot
    @DrDeeDot 12 лет назад

    This research seems quite related to research on cement mixing: how does one best stir wet cement to keep the mixture consistent, and minimize the formation of dry clumps and cement dry out.

  • @MrSnickerssuper
    @MrSnickerssuper 12 лет назад

    You've made some really good and valid points there.
    "The theory is simply ridiculous"
    "It's laughable"
    I myself can't imagine more solid proofs of big bang theory's inconsistency

  • @evildude109
    @evildude109 12 лет назад

    I think the purpose of the experiment is basically saying that we can treat groups of large pieces of matter, when they are all basically uniform, as if they were liquids. If you really get in very very close, water does not have a surface, it is just a collection of molecules that are attracted to each other by electromagnetism. From a slightly larger reference frame, these pieces of sand also do not have a surface, and yet they attract each other just like water.

  • @kenfury23
    @kenfury23 11 лет назад

    it is amazing how much the slides in the first 1/3 of a second looks like the WMAP data.

  • @Mehmet-uy8cr
    @Mehmet-uy8cr 8 лет назад

    They tell us that density is what matters if it sinks or not. But according to these vods you also have to add some extra force to win from the surface tension.
    Kind of like the latent energy required to change from phase to phase.

  • @Momohhhhhh
    @Momohhhhhh 12 лет назад

    Water has higher surface tension than most common liquids. The strength of the surface tension is based on intermolecular forces (the electrostatic forces between the molecules themselves) and water happens to have pretty strong intermolecular forces. These same forces determine boiling point, so a good way to find liquids with stronger or weaker surface tensions would be to compare their boiling points. A higher boiling point usually means stronger surface tension.

  • @Spookyhoobster
    @Spookyhoobster 12 лет назад

    Not too sure if this applies to the video but you guys know about those colored sands in a bottle you get at fairs sometimes? They say in the video we can't shake things to make them uniform but if you shake a bottle like that it spreads pretty uniformly. Or can you arrange the colors in a certain pattern that will retain a lot of uniformity?

  • @MrOldprof
    @MrOldprof 12 лет назад

    We had the same problem initially. The computer simulation allows us to calculate the pressure inside and outside the circular blob and the pressure difference varies at sigma/r, that is the surface tension divided by the radius; the second method uses a flat interface and involves the difference between the pressure, P, in the direction perpendicular to the interface less the pressure parallel to the interface. Both methods give the same sigma. Weird Huh.

  • @ARiverSystem
    @ARiverSystem 12 лет назад

    The thing those two have in common is that particles of some sort are building clusters due to attractive forces.
    But that's where the similarities end. Surface tension means that there is also an outward pointed force (like with the paper clip on water) which repels objects. This effect is not present in the case of galaxy fomation. The formation depends on gravity alone and has no surface tension like behavior.
    Thanks for the great question, made me think a bit.

  • @fabienpaillusson7390
    @fabienpaillusson7390 11 лет назад

    Surface tension can also appear in hard disk and hard sphere systems that both undergo a first order phase transition from fluid to solid. I therefore wonder if dissipation is so crucial in this nice experiment with granular matter...

  • @MBAustin13
    @MBAustin13 12 лет назад

    That's a good question. My instinct says that there isn't a direct analog; in water surfactants work based on polarity, which isn't at play here. However, I guess since what's causing the surface tension in this case is a loss of kinetic energy, if you could introduce something that would coat the particles and make them more elastic when the collided (some sort of "flubber" if you've seen that movie) you might be able to achieve the same effect.

  • @Taneth
    @Taneth 12 лет назад

    Partially, but also static charging would probably have a lot to do with it. There was an experiment done with a bag of salt in low gravity, and when they shook it, the grains tended to clump together and stay that way. Looks like what happens here is that by denying the particles a stationary surface on which to settle, and keeping them all constantly moving, it's turning them into a kind of fluid. The surface tension then forms because any concave curve would trap particles faster than convex.

  • @MrOldprof
    @MrOldprof 12 лет назад

    Good question. The surface tension does not come from forces between particles: it comes from the collective motion of all the particles, in particular their components of kinetic energy. It is an emergent property that does not come from the behaviour of individual particles.
    Atoms obey the laws of quantum mechanics. A large enough collection of atoms can form a solid which moves in space according to the laws of Newton. Newton's laws emerge from the collective motion of many particles (solid).

  • @werdnativ
    @werdnativ 12 лет назад

    @sixtysymbols, are Roger and James familiar with the work of Dr. Gerald Pollack? There's a video of him here on RUclips from 2009, presenting his findings on the liquid-crystal structure of water. He talks at length about surface tension and how energy imparted by light creates a charge separation in the surface of water. I'd love to hear more about this, it's very cool.

  • @GetMeThere1
    @GetMeThere1 12 лет назад

    Well....as I take as implied in the demonstration, bronze particles DON'T produce any surface tension UNLESS a continuous vibrating upward force is applied. That, ultimately, has to be the source of the force of the surface tension. There HAS to be some component of lateral force from the imperfect vibration mechanism--and that supplies the lateral force that moves the particles from which the surface tension emerges.

  • @MrOldprof
    @MrOldprof 12 лет назад

    He has typed up his thesis and has handed it in to be assessed. The oral examination is in January and will be conducted by Professor Brilliantov of Leicester University, a leading expert in the field. He should pass the examination, for James is very good at expressing his ideas; and he works hard.
    The research has changed in character in the last 12 months so his hand written notes, although useful, have proved less useful than he hoped.
    Roger Bowley

  • @atrumluminarium
    @atrumluminarium 9 лет назад

    It's rather unfortunate that James doesn't show up a lot on Sixty Symbols, I like how he explains stuff.

  • @bigboam
    @bigboam 11 лет назад

    This is a fascinating discovery. Cheers guys!

  • @otakucode
    @otakucode 11 лет назад

    I'm glad I wasn't the only one who immediately thought 'Turing reaction-diffusion pattern' as soon as he turned the system on! I've simulated such patterns before and it looks precisely like them!

  • @timewass
    @timewass 12 лет назад

    Like some others have said, it would interesting to see the outcome with different set frequencies and do the patterns or behavior change with a sweeping frequency.

  • @o0oo0ooo0oooo0ooooo0
    @o0oo0ooo0oooo0ooooo0 12 лет назад

    In a way, I think both sound an heat can be regarded as kinetic energy. For sound, a medium such as air forms waves of denser and less dense areas. Heat is just the average of shaking or vibration of the individual molecules.
    In this case here, the energy is given off the bronze particles/ water molecules to the surrounding medium (i.e. air), I wasn't sure if you considered that.

  • @MasterHigure
    @MasterHigure 12 лет назад

    So, here is a question: The surface tension in the case of cows (or celestial bodies and gravity) is present because every single particle has an inclination to go towards the center. A side effect of this inclination is that it tends to erase any asymetry, so if a big object comes pushing in, displacing them from circular formation, their "collective need" of being symmetrical will push back. What mechanic is behind the copper dust's need to be in circular lumps?

  • @Truthiness231
    @Truthiness231 12 лет назад

    I remember a fairly recently episode of QI (that's Stephen Fry's current show for those who don't watch the BBC) where there was a question nobody apparently knows about why certain nuts rise to the top of a group of mixed nuts. I thought it was odd we didn't fully understand the physics at the time, but I'm starting to see now that random mixed objects being shaken up is quite a bit more complicated than it initially appeared (and the way it initially appears seems complicated enough as it is).

  • @MrMichaelEdie
    @MrMichaelEdie 11 лет назад

    At some points of the experiment it looks like little menisci are forming. So I guess there are adhesive effects with the walls accompanying the cohesive effects of the particles. Do you see these in the simulation (if you include inelastic walls)?
    Amazing stuff. Michael

  • @RealCadde
    @RealCadde 12 лет назад

    6:58, OE...
    Only thing i could think of was OE-cake which is a physics simulation sandbox "game".
    This too deals with surface tension quite a lot and is really fun to play around with.

  • @brandonorozco8750
    @brandonorozco8750 11 лет назад

    I want to conduct this experiment for a high school science fair project. I want to know a little bit about the setup and the cost of it. I would appreciate it if you could help me! What were the steps in making the square box? How much would a piston cost? Could I connect the piston to any sort of wave generator? Is the computer simulation necessary to conduct the experiment. What resources and sources of information do you think could use to conduct the experiment?

  • @BruceCrossan
    @BruceCrossan 12 лет назад

    Maybe the vibrations induce a resonance in the particles which creates some sort of interference pattern with the source vibration waves. You then have waves from the particles themselves pushing against the source waves, pushing the partials to clump into this pattern.
    Similar to a magnet inducing an EMF in a metal which creates an opposing magnetic field which propels the magnet itself.

  • @Octanis0
    @Octanis0 11 лет назад

    They don't say whether the experiment is carried out in vacuum or with gas, but I'd assume that in a vacuum the clumping would take a little bit longer because you've removed one way to lose energy, which is air resistance.

  • @energysage9774
    @energysage9774 12 лет назад

    Water takes 40 kJ/mol of energy to go from liquid to gas, once it's already at 100 degrees Celsius. This equates to slightly more than 2,200 kJ per kg (or 1000 per lb). ONE kJ (kilo-Joule) is how much energy a 100W lightbulb uses in 10 seconds, or lifting a 200 lb. weight about one meter (~3 feet) off the ground. Raising water by one degree takes about 4kJ per kilogram. Different materials require different amount of energy, though, which is why metals often feel more hot or cold.

  • @falconlara
    @falconlara 12 лет назад

    Congratulations on the Paper! (great video).

  • @brandy1011
    @brandy1011 12 лет назад

    "It's ironic that you choose that example...because you HAVE. That's exactly what you've done."
    Made my day :D

  • @MrPauld123456
    @MrPauld123456 11 лет назад

    That is amazing. I wonder if that affect plays any part in star formation or indeed galaxy seeding in the early universe?

  • @andrius0592
    @andrius0592 12 лет назад

    I'm pretty sure that resonance not only requires that the frequency was constant, but also that it was some specific frequency. In the experiment they probably chose a frequency that is far from resonance frequency.

  • @spilperson
    @spilperson 12 лет назад

    Reminds me of the videos of a slurry of magnetic particles in liquid dancing on a speaker (there a many on youtube). You see the slurry form all kinds of vertical shapes that seem to defy gravity - which is an aspect of surface tension, right? Very interesting.

  • @johnfthiel
    @johnfthiel 12 лет назад

    interesting. I worked in a soils lab a few years ago where we had to break, shake, soak, compact, and do many things to the soil. Shaking it was one of the most common. I wish I had known this so I could have looked out for it

  • @Pianoguy32
    @Pianoguy32 12 лет назад

    You're looking at it from an outside perspective, our universe could currently be a tiny spec so its irellevant. Especially as all that has ever existed was inside the spec so any dimensions of size cannot be thought as such.

  • @S1nwar
    @S1nwar 5 лет назад +1

    so the result of this experiment is *different* from just a standing wave forming in the box forcing the grains in certain fixed patterns which depend on the frequency applied (60hz mentioned here)?

  • @chopperboi89
    @chopperboi89 12 лет назад

    Any particular reason why brass was used and not some other material? Keep up the great work Brady & team!

  • @TheBetterGame
    @TheBetterGame 12 лет назад

    In response to your brazil nut example. Consider this. The hardware store I work in has a paint department. When we need paint tinted, we put in the colorant, then shake the paint up and down in the exact same way (I know some swirl it, some shake it in 3 dimensions, but ours is JUST up and down.) The paint, after only a coupe minutes, has a completely even color. Why doesn't the colorant separate and pool in one area of the medium?

  • @25dnorric
    @25dnorric 12 лет назад

    The surface is vibrated creating nodes and anti-nodes. The brass dust clusters towards the anti-nodes. and as the dust moves it changes the surface which changes the location of the nodes and anti-nodes. The system seeks the lowest energy state resulting in the dust clustering as one

  • @MasterHigure
    @MasterHigure 12 лет назад

    Heat can't travel, but the objects themselves can heat up from the collision. There is no sound in the vacuum outside, but there can still be sound inside the entities themselves. This will degenerate to heat or stable standing waves after a while.

  • @PetraKann
    @PetraKann 11 лет назад

    Bronze is also an alloy. I would try the same experiment with particles composed of a pure element. There is also a mechanism of particle migration/movement in suspension called shear migration (A, Acrivos)

  • @mybluemars
    @mybluemars 10 лет назад

    I wonder how this is surface tension when energy is being put into the system that causes the behavior. Interesting enough the surface tension of any material (including water) can be changed by changing the frequency and amplitude of vibration. Thank you again for the video!

  • @MrMichaelEdie
    @MrMichaelEdie 12 лет назад

    So it is, how glorious! I was referring to the other two granular systems videos.

  • @ITFAE
    @ITFAE 11 лет назад

    I only took a quick look, but aren't those two different experiments? In this one the whole plate(I think) is vibrated up and down to agitate the grains. In the video you suggested all it showed was sand settling at the nodes of vibration of a standing wave pattern in a piece of metal? When they said they vibrated the plate at 60 Hz I think they meant up & down vs setting up a 60 Hz standing wave. pattern.

  • @ARiverSystem
    @ARiverSystem 12 лет назад

    An effect of surface tension is that the particles of a cluster "stick together" which results in an outward pointed force,like you can see with the already mentioned paper clip.It floats,because there is an outward pointed force.
    And galaxy formation does not depend on a similar force like the one on the paper clip. Surface tension has nothing to do with that, it only depends on gravitational attraction.
    BTW this is only yt and i can't give a complete description of surface tension in a comment

  • @legatolutherie
    @legatolutherie 12 лет назад

    Your experiment looks like Chladni figures, that I use in tuning an musical instrument's soundboard. What is the relationship between the "surface tension" and the nodal mapping of vibrating plate? Is what you are observing the result of the interaction (attraction of the particles) due to the "surface tension" or the collecting of particles at a plate's nodal lines for a given frequency?

  • @xKiNx
    @xKiNx 11 лет назад

    I am interested to know what role air pressure plays in the solid matter surface tension, especially on your vibrating table.Would the grains moving away from each other should create a low pressure area that will attract more grains? This would help explain why there are circular groups that will eventually end up together. Just a though

  • @Shive1337
    @Shive1337 10 лет назад

    This is really exciting. Wish the video was more elaborate

  • @MrOldprof
    @MrOldprof 12 лет назад

    We have used glass particles. They are harder to see and have a higher coefficient of restitution so they cluster less. Videos of glass particles do not show spinodal decomposition so clearly. Bronze particles were the best that we had in the laboratory.

  • @swiminbandgeek
    @swiminbandgeek 12 лет назад

    Congrats on the having the work accepted guys =)

  • @Patan77xD
    @Patan77xD 12 лет назад

    Yeah but its always good to ask questions and have and ideas of your own even if its on a very fundamental level, and I'm curious what they did take in to a count when running the simulation, because I work with particle/fluid dynamics professionally. (;

  • @getledinyourhead
    @getledinyourhead 4 года назад

    Does this surface tension exist across various materials? What's the difference in behavior between sticky particles and non-sticky? How does the behavior change in substances like salt, sugar, baby powder, aluminum powder, saw dust, or Portland cement? I wonder what it would mean if some particles do not have this emergent surface tension phenomenon. Fascinating stuff.

  • @PennyDorkis
    @PennyDorkis 12 лет назад

    See the Brazil Nut Effect (sixtysymbols) video Brady put in the video responses above. It is very relevant to your question.

  • @HenkJanBakker
    @HenkJanBakker 12 лет назад

    Love this. Liquifaction, flocking. This is taking 'unifying the fields' to a new state. Yeah I know it seems unrelated but that is basically the point. If water, balls and cows have surface tension there may be hope yet.

  • @MrMichaelEdie
    @MrMichaelEdie 12 лет назад

    So the regions with the highest density of particles has the lower pressure? Marvelous stuff.

  • @NickRoman
    @NickRoman 11 лет назад

    They got even distribution by shaking at one frequency and/or amplitude and clumpy shaking a different way. I saw a video once about this and they said that drug companies and livestock feed companies use vibration at certain frequencies to create clumps of their product for easier storage.

  • @hydrophiliak
    @hydrophiliak 12 лет назад

    Kudos chaps, that's really fascinating!

  • @PseudonymousCypher
    @PseudonymousCypher 12 лет назад

    Ever since your first video on Granular Dynamics I have been extremely interested in the concept, and am really curious as to how the system mimics the characteristics of other phases, primarily gas. It seems almost as if you are creating a gaseous system but with bigger particles. Does the system mimic any gas laws? (ex. solubility, ideal gas law)

  • @sinachiniforoosh
    @sinachiniforoosh 11 лет назад

    That's true, but the scale of these disturbances is very small, but as time goes on these disturbances scale up, resulting in bigger clusters and a kind of breaking in the symmetry of the system.

  • @chlomosaurusrex
    @chlomosaurusrex 12 лет назад

    Well done guys, this is awesome and I'm really happy for you :)

  • @willpower8888
    @willpower8888 12 лет назад

    Search Cymatics to see more, changing the frequency of vibration effects the pattern of distribution.

  • @TheVergile
    @TheVergile 3 года назад

    how do separate this effect from other effects due to standing wave patterns in the box? If this is driven at a constant frequency you would expect to see chladni patterns

  • @VitruvianSasquatch
    @VitruvianSasquatch 12 лет назад

    Simple:
    The system 'loses' a set percentage of its energy for each unit of time. Exponential decrease. Hence, the change slows down but never stops completely.
    Also, remember that it ISN'T a closed system because you're adding kinetic energy to it via the 60Hz vibrator.

  • @ashwith
    @ashwith 12 лет назад

    I don't know if you use these operations here (I know it's used in fluid dynamics) but could you please do a video explaining what gradient, divergence and curl mean physically (the last two are particularly hard for me. Explaining it in a comment would be great too!). I can do the math i.e. solve problems but find it quite hard to get a sense of what it all means. I need to use these in electromagnetism. As an engineer what I can do is more or less enough but it's not very satisfying.

  • @davefoc
    @davefoc 11 лет назад

    This reminded me a bit of the strange patterns that set up in miso soup. I'd expect randomness but for some reason the suspended solids seem to concentrate in non random patterns.

  • @pacogoatboy
    @pacogoatboy 12 лет назад

    Those are some marvelous cows Brady. :-) You should auction the picture next time there is a MCF 24 hour event in the youtube science and skepticism community.

  • @davidsweeney111
    @davidsweeney111 12 лет назад

    you can actually quite reasonably explain this behaviour using chaos theory and strange attractors, you should try and get data from other other materials, try substituting the glass with a polymer such as perspex, vary temp and pressure.

  • @gulllars
    @gulllars 12 лет назад

    I wanted to watch that extra footage wideo with the insides of that computer, but when i clicked on the link it wasn't on the Test Tube channel that was linked to.
    I am disappoint.
    Hope it will be there soon.

  • @adamringham9784
    @adamringham9784 12 лет назад

    Out of curiosity, what WOULD happen if you put water in with it? Would it heat up faster? create different shapes/patterns? Flash boil? Would it create a strong magnetic field? Just curious!

  • @avadakedavra80
    @avadakedavra80 12 лет назад

    surface tension in water is also electrostatic forces between the 'granular' water particles as they are moving. Water is also not continuum at the scale where these forces act.

  • @FPengu1n
    @FPengu1n 12 лет назад

    Hey Brady, if you get a chance to ask;
    Can this shaking motion be used to separate out the components of a powder / granular medium? Like, for example, I had a mixture of salt and sugar and shook it at the right frequency; would the two components move over into individually distinct blobs / phases?

  • @alberthung6191
    @alberthung6191 12 лет назад

    Not quite. The effect you describe is better known as stress concentration at a crack tip. In the absence of a crack, stress is distributed evenly and nothing breaks. With a sharp crack, stress is concentrated at the tip of the crack, causing the crack to grow very easily. Anyone who has watch a small crack in their car windshield grow into a giant spiderweb of fail is familiar with this effect.

  • @Heylel444
    @Heylel444 12 лет назад

    what is actually happening in this experiment is agglomerate fluidization of granular particles and that the agglomeration pattern is variable and dependent upon the rate of vibration.

  • @spacegothgirl
    @spacegothgirl 12 лет назад

    That's very interesting. What would happen if you put more then one type of sand with different densities, sizes, materials ect? Would they randomize together or cluster with their similar grains?