It makes me wonder if these observations could inspire a "slippery" metal alloy that never needs lubrication
@orchdork7755 ай бұрын
Interesting!
@fireworkstarter5 ай бұрын
youd need a metal alloy that wont ever rust since that would not make it pack propperly into a crystal again and it needs to be able to turn liquid again under pressure
@dtibor59035 ай бұрын
Yes, that metal is bronze... Although it needs some lubrication for best performance. You find bronze bushings in small motors and fans.
@pon15 ай бұрын
PLEASE someone invent that!
@SeekingTheLoveThatGodMeans76485 ай бұрын
Any alloy would be slippery at its melting point. A bearing filled with a liquid like mercury (or safer, galinstan) -- as long as it could be made so that it would not leak its liquid and its temperature never reached the freezing point of the liquid -- might be a possibility.
@HallowedError5 ай бұрын
This was fantastic and I remember all the old videos that basically said 'this is our best guess but it doesn't actually make sense' so this was really satisfying
@antivanti5 ай бұрын
As someone who lives "quite far north" I can attest to the fact that ice gets less slippery when it's REALLY cold. Bur also if the soles in your shoes are cheap and contain more plastic than rubber they get hard as bakelite and insanely slippery. Also if it's really cold and there's a slight layer of powder snow on perfectly blank ice you're screwed. There's no more slippery surface in the world. Literally no friction. It's like being the puck on an air hockey table 😅
@blucat45 ай бұрын
I believe you. But coming close is a hard rock road (graded flat and smooth) with clay over the top (also graded smooth) and rain. That's extremely slippery as well.
@Myron905 ай бұрын
I live quite far south. It's always so hot.
@nomars48275 ай бұрын
@@Myron90you live not as much far South. Really far South is also cold
@_apsis5 ай бұрын
@@Myron90 you live quite far middle, then
@Padraic545 ай бұрын
I can't hear the word bakelite without having flashbacks to End of Evangelion.
@solii015 ай бұрын
I started watching this video with the thought "I will probably not understand this". But you explained everything _very_ well. Good job and thank you!
@seanb35165 ай бұрын
I had a Chemistry Teacher demonstrate a Solid - Solid Chemical Reaction. It was quite odd looking. Two different white powders were placed in a glass tube. The tube is shaken only one toss at a time. In the tube blue crystals quickly formed. The crystals grew each toss of the tube but not otherwise. There had to be mechanical motion and contact.
@DoNotPushHere5 ай бұрын
Won't you remember which solids were those? Looks like an amazing experiment
@kleinegeist5 ай бұрын
But seriously, if you recall the chemicals involved I'd love to know, might duplicate the demonstration.
@vari15355 ай бұрын
i would like to add to/reinforce the inquiries about which solids they were!
@trs41845 ай бұрын
With the utmost reverence, I, being the fourth person to inquire, humbly beseech you to graciously reveal the esteemed identities of the two venerable white powders that were utilized in this noble undertaking, so that I might fully grasp the intricate details of their application and import.
@andrewmcguinness18455 ай бұрын
I, too, wish to humbly add my name to the list of others requesting this knowledge of you. I seek their import and subsequent application for the entertainment of my 4 year old niece. Even if she isn't entertained, I will be. EDIT: My research indicates it might be some form of Copper Sulfate.
@rebeccawinter4725 ай бұрын
The background baseline of "under pressure" and "ice ice baby" is just sublime when talking about vacuum @2:20.
@shyguy15975 ай бұрын
actual timestamp: 2:13 (dont put your timestamp at the end of the section you want to talk about)
@ChumBucketlNC4 ай бұрын
@@shyguy1597 39 buried, 0 found
@ChumBucketlNC4 ай бұрын
i hate the fact it cut off when it was about to be crushed
@elitecarbonninja44293 ай бұрын
And friction by imagine dragons at 5:40
@flaym.5 ай бұрын
Therapist: "double-bonded hydrogen isn't real, it can't hurt you" Double-bonded hydrogen: 6:25 (right side)
@bananasnapples94655 ай бұрын
what is that abomination
@HighFlyer965 ай бұрын
Don't kink-shame, just a different kind of -bondage- bonding
@helohel59155 ай бұрын
Hydrogen bonding:
@terraminator43795 ай бұрын
erm what the sigma?
@oa_math5 ай бұрын
lmaoooooo I see it now lmaoo
@gruffdavies5 ай бұрын
Brilliant video. My favourite of yours so far (as a fellow PhD physicist, I really appreciate how much work you've put into researching this and loving the cheeky humour too. This new explanation of a classic phenomenon that we thought we understood reminded me of a fairly recent result showing that static electricity (e.g. amber and fur) isn't due to electrons as we thought, but molecular ions. Apparently, a chemist proved the electron model was energetically impossible. A bit embarrassing for us physicists, but I bet he was a physical chemist, so we can take the win anyway 😂). Keep up the great work, Dr. Ben!
@S1nwar5 ай бұрын
do you know why, when you wet your fingers with a tiiiny amount of water you get insanely good grip (on a smooth metal surface for example)? completely dry fingers are slippery and completely wet ones too but theres that perfect amount of water that gives you an insane amount of friction
@cyfralcoot655 ай бұрын
The answer is probably capillary forces pressing your hand and a surface together. Just lay 2 flat glass sheets on top of each other and add 1 drop of water between them - You'll be surprised how much force is required to pull them apart
@MrTheoJ5 ай бұрын
this is also the case with some types of garbage bags. With dry fingers its hard to seperate / open them but with damp, not wet, it's easy
@itssoaztek45925 ай бұрын
@@cyfralcoot65 Yes, capillary forces contribute to improved "grip". A much bigger contribution though comes probably from the increase in contact area. Imagine two sheets of any solid material put on top of each other. The force required to separate them decreases with increasing surface roughness, i.e. decreasing contact area. In other words, the sum of attractive interaction forces between these two surfaces in contact depends strongly on the number of atoms (per unit area) at very close distance across the "gap". Now, instead of polishing two rough surfaces you get a similar effect here by adding water to "smooth out" the roughness, i.e. increase the "contact area". An indication that the contribution of capillary forces is not as big may be derived from the fact that compared to wet fingers you get a similar effect of improved grip with "greasy" fingers. Grease or fat are semi-solid materials, so capillary forces are not existent or negligible in that case. Of course, this is still not the whole picture but hopefully a useful illustration.
@jaspermooren58835 ай бұрын
Just a hypothesis, but it might have to do something with the oiliness of your fingers. By applying water, the oils on your fingers are rendered less effective. I wouldn't be surprised if there is an optimal point between reducing the effectiveness of the oil and the effect of the liquid water itself. But like I said, that's just a hypothesis.
@bl4cksp1d3r5 ай бұрын
That's because of the grease on your skin. Clean the properly and this happens way less
@AlbertScoot5 ай бұрын
3:17 Thank you for voicing something everyone who's studied engineering has felt.
@topheye63183 ай бұрын
Was looking for this comment 😂
@Yezpahr5 ай бұрын
Lol, the bloopers at the end were priceless. Here you are trying to prove something mundane that we all know happens and the ice gods just aren't letting you have it.
@dmitryshusterman94945 ай бұрын
Not proving, explaining
@michaellavery48995 ай бұрын
Sounds like most of my experience chemistry labs. I'm sure bronze age people were better practical chemists than me.
@diamondcreepah5 ай бұрын
The subtle change from Ice Ice Baby to Under Pressure at 2:13 is genius
@fulldeepshadowmmon5 ай бұрын
This is a perfect illustration of the problem with active measurement. The energy introduced to the system to measure it changes it. Therefore what you are measuring is the system plus the measuring method. So you can never measure just the system.
@user-vp1sc7tt4m5 ай бұрын
Are you making a reference to the QED measurement problem in your statement?
@michaelhart75695 ай бұрын
Yes. That sort of question was always in my mind when reading/reviewing AFM-type experiments (I was working with surface plasmon resonance at the time). Also, more than one supervisor reminded that "remember, this is their best data they are publishing". Asking how often another pattern was observed tended to make people get a bit scientifically defensive.
@coldicecubes05 ай бұрын
I'm not weird >: (
@Wolfentodd5 ай бұрын
Who the hell let you out of the sub-zero control freezer?
@softwater344 ай бұрын
It’s okay. I don’t think you are
@coldicecubes04 ай бұрын
@@Wolfentodd they said i was too "cool" for that place
@Wolfentodd4 ай бұрын
@@coldicecubes0 did they write an-tartic-le about it?
@AdalbertAlexandru4 ай бұрын
Careful your melting away 🥴
@Min0rus5 ай бұрын
This is just a meme compilation of people slipping on ice. You cant change my mind
@manfromlamancha5 ай бұрын
They know what they were doing.
@thunderhorse645 ай бұрын
With a bit of science and history sprinkled in there for a bit of flavor
@cosmicraysshotsintothelight5 ай бұрын
So are the comments... and they are crystalizing and accumulating... Snow flakes and Ice cubes and glaciers, oh my! No wonder they carved out lakes. The slippery side is 'up top'!
@zachhoy5 ай бұрын
his editor is low-key awesome
@Patrik69205 ай бұрын
well thas some cold hard slippery news..
@IroAppe5 ай бұрын
2:44: That has to be the most clarifying picture of water freezing to ice that I've seen. It's so beautiful, you immediately see what happens and why.
@pauljackson34915 ай бұрын
So the AFM is actually like a really small record player stylus. And with the laser bouncing off there are 2 levers involved: The stylus is one and the laser beam is the other.
@oscargr_5 ай бұрын
With a rather odd definition of lever, sure.
@cosmicraysshotsintothelight5 ай бұрын
Paint It Black (ha ha) and the beam will apply 'pressure'. Hey... I know! Apply a Vanta black surface treatment. Oh crap, then you will not be able to see the laser bounce! I suddenly hear David Bowie music in my head... I am getting old.
@entcraft445 ай бұрын
@@cosmicraysshotsintothelight The beam will exert more pressure (twice as much to be exact) if you make it nice and shiny rather than black.
@admthrawnuru5 ай бұрын
The explanation in the video is oversimplified, but sure. The actual paper used non-contact mode AFM, meaning the tip oscillated just above the surface and the atomic force was derived by modulation of the amplitude or frequency of the oscillation
@SuperBoppy5 ай бұрын
The world's smallest phonograph player. LOL
@EchoIrl5 ай бұрын
slippy 🥺12:31
@SBG1722 ай бұрын
🥺👉👈
@bujin54555 ай бұрын
4:15. I don't know that I buy the idea that there are three square inches of ice skate on the ice when a person is in motion. (The area required for a 150lb person to be exerting 50psi.) I suspect the real expressed area is quite a bit less than that.
@Bob943905 ай бұрын
How wide is the blade of a skate used by figure skaters? 0.4 centimeters? It is curved, so less than the full length is in contact with the ice; say 5 or 10 centimeters. Based on these assumptions, the contact area could be around 2 to 4 square centimeters. That is a factor 5 to 10 less than 3 square inches. So I agree with you.
@elirane855 ай бұрын
@@Bob94390 To bottom of an ice skating blade is not flat but concaved so the width that touches the ice is much much less then the blade's width, it's actually 2 very thin blades that you skate on called the "inner edge" and "outer edge".
@DuckPerc5 ай бұрын
I agree, but I gave up after googling for lengths and widths of hockey blades and receiving exclusively articles about blade radius, which is apparently a keyword. I say, take the blade length and multiply by the width of a cunt hair times two.
@cosmicraysshotsintothelight5 ай бұрын
@@elirane85 It is all touching. Those "edges" are what are there and are "sharp" (concave face) to allow the skater to use his down force and that cutting edge and the skate blade tilt angle and skate blade lengthwise arc to effect a turn or vector alteration. The racing skates have a flat squared face on the edge, which is one reason why they step through turns on their tracks and use big long body weight shifts and not a convex curved edge kick to accelerate against. Even in the case of the concave faced blades the entire blade face 'touches' when 'gliding'. Like the difference between 'riding ' a skate board and the leg kicks to get it going and keep it going.
@velisvideos62085 ай бұрын
The third skate profile is found on ice yacht blades. These are sharpened to knife edges with about 90 degrees angle. The blade must be slightly curved for best performance with a short flat centre section. It's noteworthy that in practice speed skates have a similar 90 degrees effective angle on the edge that touches ice. Based on personal experience, smooth ice is slipper than rough ice. For safe walking on smooth ice the worst conditions occur when there is a thin layer of dry snow covering the ice. It's like walking on roller bearings.
@snowy3869.5 ай бұрын
3:14 "Thompson was one of the inspirations in the field of Thermodynamics, something I'll never personally forgive him for" Me too, me too...
@MeriaDuck5 ай бұрын
I knew about electron tunneling microscopes, this looks a slight bit simpler than that. The fact that we can scan atomic-scale resolution is mindblowingly fantastic.
@thea789995 ай бұрын
If you are in an AFM Lab and the people there are in a mood to do it, ask them to scan graphene with one. It can manage to produce incredible pictures where you can clearly see the graphene structure (iirc we managed do get a frame of 3 by 3 nm). Also AFMs can be used to probe for magnetic fields (for example it's possible to visualize the data written on the disks of old harddrives) or you can graft polimerized surfaces and do very fine engravings.
@admthrawnuru5 ай бұрын
atomic-scale AFM is fairly difficult, by which I mean you need the proper setup. Like all atomic-resolution methods right now, it mostly only works at cryogenic temperatures in vacuum... but more generally easy-to-use AFMs can still get nanometer order resolutions and can be modified to measure all kinds of other phenomena (conductivity, work function, magnetic moment, piezoelectric effect, etc.). Liquid environment AFMs also operate at slightly lower resolutions and can pick up electrochemical signals and the like. My second most cited publication (sadly not first author) was used electrochemical microscopy to detect analyte activation on sensing nanoparticles.
@Hiandbye955 ай бұрын
@@admthrawnuru Why does it have to be so cold? Is it because at higher temperatures the atoms move around too much?
@retu35105 ай бұрын
I know a reasearch group who just uses a platinum wire which they cut off at an angle with scissors and then pulse current through a few times till they have a one atom tip. Works quite well for their use case and was quick
@thea789995 ай бұрын
@@Hiandbye95 (I can only tell from own experience.) With graphene we didn't need a vacuum or cryogenic temperatures. Essentially the tip of the cantilever was send rapidly across a small area of the graphene. This does produce pictures of the graphene structure, but they aren't the smoothest. Essentially the scan lines would be slightly off the nexts position. I assume it's possible to do much better under cryogenic temperatures in a vacuum and it may be needed for materials other than graphene (seems pretty plausible to me).
@shorgravan5 ай бұрын
Real interesting stuff! Double points as this made me unlearn something I thought I knew. And it as this generates a bunch of follow--up questions too! Can't access the paper right now but I'll definitely give it a read at some point.
@ralphc.6445 ай бұрын
The "I" in ice Ih and Ic is the Roman numeral one. It should be pronounced "ice one h" and "ice one c". Fantastic video! Great work!
@scott983905 ай бұрын
Yet another example of font failure
@confuseatronica5 ай бұрын
Ith Icth Ith bronounthd li yuh tug ith frothed sthoo a flagpole
@killerbee.135 ай бұрын
@@scott98390 there is no font that will show you the difference between a roman numeral one and an I
@apotatoman48625 ай бұрын
@@killerbee.13 U+2160 edit: Ⅰ
@chromatica__5 ай бұрын
@@killerbee.13 technically there is a separate Unicode character for the roman numeral "Ⅰ" that isn't the same as the latin alphabet capital I, but because people pretty much always just use the latin alphabet I for both and most fonts don't have the roman numeral version so it doesn't really matter
@AllHailZeppelin5 ай бұрын
Veritasium’s been real quiet since this vid dropped
@Urduhkhan3 ай бұрын
He can just make a video explaining why he was wrong. That's how science works lol
@chang.stanley2 ай бұрын
@@UrduhkhanScience, that's on the internet. So he needs to double down. That's how the internet works.
@uumlau5 ай бұрын
Awesome video! The interesting thing is that the "it melts slightly under pressure" explanation was parroted as fact for so long. There's an old Feynman video (1986-ish) where he gives that explanation.
@Yezpahr5 ай бұрын
What I find weird is how so many people refuse to read my comment and refuse to understand anything I wrote. Just don't read this if you're feebleminded, people. What I find weird is how it managed to get parroted that much, because the notion that it melts a fine layer on top under pressure is still just a circular argument. You end up with a layer of water but why is **that** slippery? They ---> (the people in the past, aka ---> BEFORE
@ClementinesmWTF5 ай бұрын
@@Yezpahrwater…is slippery tho. It’s not a circular argument to say water is slippery. Everyone knows that a thin sheet of water acts as a lubricant and is slippery, hence “wet floor” signs and hydroplaning. You really weren’t as clever as you thought you were and this seems more like a r/im14andthisisdeep type brag.
@1dfr335 ай бұрын
@@YezpahrI've never in my life heard a 4th grader say "circular argument" or even have the wherewithall to properly follow an argument in a way that could allow them to state that. With that being said, I'm calling cap on you homie.
@Yezpahr5 ай бұрын
@@1dfr33 In my country we actually got education, instead of 4 years of kindergarten.
@Yezpahr5 ай бұрын
@@ClementinesmWTF Your reddit lingo is meaningless here. They didn't explain water was slippery, they just said it was. I do occasionally grab a drop from the faucet to gain **friction** on the garbagebags when getting it off the roll and to open a new bag... so it is slippery you say, but there are more forces at work as to **why the ice** is slippery in the first place which nobody explained until these papers came out.
@SirLordBabyPeen2 ай бұрын
0:00 solid ice bonding together is actually a rather common thing to occur for solids near their melting temperature. It is called sintering. We rely on this phenomenon to form solid high temperature materials, such as technical ceramics and high temp metals.
@robmorgan12145 ай бұрын
Metals will also fuse if they have a surface of sufficient flatness and they do not have an oxide layer. Infact, most metallic machine parts that require fasteners like screws or bolts will use different metals to prevent a weld forming when the faster is tightened.
@DANGJOS5 ай бұрын
And this explains an observation I made ever since I was younger. Fresh snow is filled with crystals, but the older it is, the more it turns into balls of ice. And it doesn't seem like it even needs to melt first for this to happen. It's as if it's transforming from a crystal shape to a ball of ice shape over time. This quasi-solid layer could explain that.
@cmbaz11402 ай бұрын
Like soap bubbles ...
@lodewijk.5 ай бұрын
Wow, it's not often that I get to see such a big common mystery definitively solved! Major kudos to the researchers and to you for breaking it down so clearly
@blackace12952 ай бұрын
The fact that through trial, error, and probably a lot of practice hours, we essentially sussed out the perfect temperature for maximum ice slip before really even understanding what was going on or proving it through experimentation is my absolute favorite part of this entire thing. That's so cool to think about.
@barberb5 ай бұрын
> Physics grads: why is ice slippery > CS grads: how can I make sand think
@RENO_K5 ай бұрын
😂😂
@RENO_K5 ай бұрын
How do i make sand do my earthly bidding
@cosmicraysshotsintothelight5 ай бұрын
OK... now try that with the grains of dust in a bag of flour.
@colbyboucher63915 ай бұрын
Or crabs. They started to make crabs think, once, that was fun. Crabs computer.
@cosmicraysshotsintothelight5 ай бұрын
@@colbyboucher6391 Coconut crabs! New drone 'firmware'.
@Trixex5 ай бұрын
as a bartender with a lot of free time, if you actually press the cubes with enough strength they stick together instantly. I believe it's because you give enough energy to the mollecules that are unsure about their orientation to move and when you remove the pressure they return to solid.
@TehPwnerer5 ай бұрын
Skate blades are not in the shape of a point like a typical knife but are in a concave curved C. This way each side has its own edge to grip into the ice better for turns etc.
@TjarkVerhoeven5 ай бұрын
Icehockey and figureskating blades are. Speedskating blades are flat with 2 90 degree angles.
@Tordvergar5 ай бұрын
Absolutely marvelous video. A problem that often comes up in the sciences is that once we have a model that seems to explain a phenomenon, the model becomes the reality, in the sense that it outweighs taking a fresh look at the actual phenomenon. For example, when I studied material science, electrical and thermal conductivity in metals was explained by electron mobility. But that didn't explain how electrical and thermal conductivity vary, metal to metal, in an uneven manner. And then you find that diamond conducts heat several times better than silver does, while diamond is the best electrical insulator and silver is the best electrical conductor. This explanation of why and how ice is slippery is so beautifully subtle!
@JohnDlugosz5 ай бұрын
Two ice cubes fresh from the kitchen at -8 degrees C act more like proper solids and don't stick together when pressed. Interestingly, they also _sound_ different when knocking against each other. However, they are still slippery, and if I drop one it will shoot off along the floor. Also note that in winter sports, a colder ice rink is "faster" for skating.
@NotSomeJustinWithoutAMoustache5 ай бұрын
He mentions and explains this in the video.
@blucat45 ай бұрын
The colder they are, the more like proper solids they act.
@JohnDlugosz5 ай бұрын
I notice in the out-takes that you had trouble getting it to stick together, too. I'll bet they were fresh from the freezer; too cold for that trick. It works when the ice is at equilibrium, actually melting to maintain the freezing-point temperature of the rest of it.
@xqr29115 ай бұрын
You all should google "gauge block wringing" to see that "proper solids" stick to each other easily but must be very very very flat.
@isaac60775 ай бұрын
@@xqr2911waters just taking up the air space and causing suction cupping
@sirligma33693 ай бұрын
video starts at 9:04
@TerryBollinger5 ай бұрын
What a fantastic science video! For the first time in my life, I feel like I’ve heard a genuinely plausible explanation for why ice is slippery! Thank you!
@CoalOres3 ай бұрын
That trick with using the reflected laser light to detect tiny oscillations is so clever.
@MrTheoJ5 ай бұрын
It is my understanding that wooden-shoes ( yes I'm Dutch ) are anti-slippery, the question ( if true ) is then why?
@peetsnort5 ай бұрын
The fridge workers in old capetown used clogs
@aukir5 ай бұрын
Wood fibers absorb the water and freeze, kinda micro gluing you to the floor. It's really an amazing process, and not only that, it's completely made up.
@rafox665 ай бұрын
Do you walk on clogs regularly? Because I can tell you that's not the case.
@cosmicraysshotsintothelight5 ай бұрын
@@aukir Stand in one place on a cold enough day on ice and with cold enough clogs and they will "seize in place". Maybe some of the superglue you were playing with got onto your eyelids. It is really an amazing process.
@peisrijn5 ай бұрын
I never walked on ice with them, but almost always experience snow sticking to their soles an building into a sort of snowball unterneath that walk very awkward, until it breaks of after getting 5-10 cm thick. This is at temperatures when the snow is sticky as you experience in the Netherlands.
@mikelabor76884 ай бұрын
An excellent vid. I recall a winter storm years ago. A freezing rain left a layer on asphalt that was "super slippery. Walking across one road I slipped at least four times.
@firestarter52395 ай бұрын
icy what you mean
@PodaKalidoka5 ай бұрын
IC it 2
@poldidak5 ай бұрын
Icy what you both did, there!
@blucat45 ай бұрын
@@poldidak They're pretty cool!
@rogerneedham87755 ай бұрын
You can c yourself out
@PodaKalidoka5 ай бұрын
@@rogerneedham8775 😂
@z-beeblebrox5 ай бұрын
I’m really glad I learned about this because the “pressure causes a thin film of water to form” always seemed like such a letdown.
@Tferdz5 ай бұрын
AFM probes are rarely metal, usually made of silicon or silicon nitride. Metal probes have lower resolution and higher wear, so they're often metal-coated instead. 7:30
@unclejimmy75 ай бұрын
Is silicon not metal?
@genericalias57565 ай бұрын
@@unclejimmy7metalloid no?
@ratdoto21485 ай бұрын
@@unclejimmy7 It's a metalloid.
@cosmicraysshotsintothelight5 ай бұрын
@@ratdoto2148 They should use some of the crystal they grew to make the new kilogram standard. Now that is some clean crystal (probe) candidate material. I think the tips are grown not machined though, right? So... oh well.
@ratdoto21485 ай бұрын
@@cosmicraysshotsintothelight What? The Kilogram is now based on a fundamental value, it never changes. Why would you change it back to some physical nonsense?
@BraindeadCRY5 ай бұрын
Water is just an insanely interesting material. It breaks so many expectations, deviates from so many rules, yet we as a species are so used to interacting with it in all it's forms that we mostly just take these strange properties for granted.
@dallassukerkin68785 ай бұрын
One of those topics that turned out to be much more interesting than you would imagine! Learning that certain ice-based sports have temperature preferences was a real "Really?" moment :)
@illyon10925 ай бұрын
this was a great video, excellently explaining this newfound knowledge in a great format without wasting time. I also appreciate the subtle, unobtrusive bits of dry humour throughout.
@holderheck5 ай бұрын
From what i have personally noticed below -34C i can't find anymore slippery ice.
@blucat45 ай бұрын
Very cool experiment, cheers. 🙂
@vez38345 ай бұрын
That could be due to how your shoe behaves at that temp. There are probably other factors you'd need to keep in mind.
@holderheck5 ай бұрын
@@vez3834 Not just on my shoe, it's hard to explain but by touch with any object, metal flesh, rubber, fur doesn't matter you can feel in how it slips one feels like cheap chalk on a chalk board and when it's warmer it slides.
@DumbAsh005 ай бұрын
What I personally noticed is below -34C I can't find anymore water
@cherenkov_blue5 ай бұрын
"Thomson was one of the inspirations of the field of thermodynamics, something I'll personally never forgive him for." As an engineering student... yeah.
@SeekingTheLoveThatGodMeans76485 ай бұрын
The blocks of ice fuse when pressed together in air that is above their melting point, because their surface first melts then resolidifies. Try doing that in air below the melting point and at the least enough pressure would be needed to correspond to a pressure weld.
@xqr29115 ай бұрын
You can definitely do that without melting or much pressure with other solids - like metal in room temperature. The surface just needs to be extremely flat - look for "gauge block wringing".
@WolfRaven-jm1cm4 ай бұрын
This is easily replicated by taking two ice cubes from the freezer and trying to stick them together. If you wait a bit until the outside is just warm enough to start melting you can stick them together and the heat being absorbed by the two cubes will solidify the water layer.
@aleclanter21774 ай бұрын
I don't know why YT finally got around to suggesting your channel, but for once the algorithm was SPOT ON! Loved this video, and with your sense of humor I'm convinced that we are somehow related. XD Subscribed. Keep up the great work!
@Jack.Waters5 ай бұрын
Yes, Always fascinating that Water has no lubricity at all... Water instead of Oil in an Engine will lock it up Fast. And Ice is colder when in Water. Ice in itself is highly slick the more smooth it is. New Ice is very strong compared to being a week old on a Lake. 1" of new ice will generally hold a careful human: 3" of old ice. 10" of ice will hold an 8-ton truck. Drive too fast on ice and a Wave will occur. Fascinating stuff.
@renerpho5 ай бұрын
It's such a weird substance.
@Jack.Waters5 ай бұрын
@@renerpho I think it is also the only thing that swells as it’s chilled.
@renerpho5 ай бұрын
@@Jack.Waters One of very few that do that, yes. He mentions Bismuth, which also does it. All the other examples are synthetic, and don't occur in nature.
@Jack.Waters5 ай бұрын
@@renerpho thank you for that. You’ve cause me to research which feeds the mind well. Gallium also expands 3%. Fascinating that all 3 freeze at close-ish temps but they Boil at vast temps. Awesome.
@kcStranger5 ай бұрын
So, I was actually in a graduate research group that studied the quasi-liquid layer using simulations. I think it's been general knowledge that it exists for quite a while, but the specific experiments that you showed here were new on me, and gave me a deeper appreciation for what's going on! I've been out of the science world for a while, and it's always fun to check back on the progress that's been made.
@kevinconnolly36005 ай бұрын
I spent some days this January in Rovaniemi where the temperature was between -15C and -30C but the ice was not slippery. It was quite safe to walk around with no risk of sliding. I wonder if that was because of a rough layer of frost or snow covering the ice?
@peetsnort5 ай бұрын
A couple of years ago I drove from Hereford to Worcester in minus 17 the road was very grippy
@cosmicraysshotsintothelight5 ай бұрын
I topped Snowshoe Mt in PA USA one year on the expressway in 8 inches of snow. On the Eastern side of the incline to the peak, myself and truckers, etc. were passing cars in the fast lane doing the full (fool) speed limit in slushy snow at the road surface level. As I topped the hill (these ain't mountains)the Western side was wind blown powder ice as they had plowed away the snow before, and my car did three huge donuts in the middle of the three lane highway and as it did I saw all the cars backing off like some time slowed cartoon, and then my little Chevette went off the side of the highway and the shape of the ditch flipped the car once in the air and it landed in the wheels facing the road perpendicular to it no glass broken, no tires popped, and still running engine. I turned it off. Good thing because the exhaust pipe had broken free from the last mount and got bent and shoved into my gas tank. All the flip did was rack my hatchback open and threw my drafting board and some of my tools out into the 8 inches of snow, which is when I noticed the gas gurgling out. Glad I turned it off. Ice is very slippery and I doubt seriously that there was any liquid form water involved on that western side. The roadway was cold(er), and they plow so no salt or they missed this patch. Anyway, that is but one of my experiences with ice. They also took out several teeth on another occasion. How quaint.
@nomars48275 ай бұрын
@@peetsnort hm that's quiet explains how they confidently drive in Northern countries while when we have ice at close to zero temperatures it is tooo slipery.
@night_san035 ай бұрын
Prior to watching: my theory for why ice fuses the way it does comes from thermal exchange and re-freezing. Simply, the ice is able to absorb just enough heat from the small amount of surface liquid to re-freeze it, ultimately ever so slightly increasing the rate at which the exteriors of the chunks melt. Kinda like a heat ripple.
@lagautmd5 ай бұрын
You didn't cover it, but this appears to explain why two pieces of ice join to make one piece when pressed against each other. Those molecules at the surface that are free to move now have 'buddies' on the other surface and they can arrange into a continuation of the hexagonal pattern, creating a single sold. I don't know if it has been verified, but it certainly seems reasonable based on this explanation for slipperiness.
@velisvideos62085 ай бұрын
If one were to make skates with blades from water ice, would they be slippy or sticky?
@lagautmd5 ай бұрын
Skates from ice? Sticky, of course.
@Werewolf.exe775 ай бұрын
As a hockey player who never liked its slippery because of its wet answer, I have to say this was a Bangger video very well spoken and very well explained, god bless man.
@TheAxeForgetsTheTreeRemembers5 ай бұрын
Asking such questions is a slippery slope
@StAngerNo14 ай бұрын
As a chemistry teacher I find it so fascinating that one of the simplest and most common compounds in the world is also one of the "weirdest" in its behaviours. But eventually it all comes down to the effect that water with its up to 4 hydrogen bounds (2 dative and 2 acceptive) has such strong interatomic forces for its small size that it behaves very different to basically all other compounds.
@Dumb-Comment5 ай бұрын
0:14 ok, then explain why my cat is glued to my legs
@danielthecake86175 ай бұрын
uhhh... electrical attraction?
@BranchBruh2 ай бұрын
@@danielthecake8617I think it’s more likely a certain type of glue attraction.
@GLeo-yw3pc2 ай бұрын
Because cats are liquids not solids
@zachhoy5 ай бұрын
Apparently they used "qPlus-based cryogenic AFM with CO functionalized tip"! Wow, wow... wow. I love learning about the advances in measuring equipment.
@treeoflifeenterprises5 ай бұрын
i'm so glad you've explained what I was never convinced of at school, about it being pressure melting the ice at the junction. It could never explain to me how you could have antarctic ice 1km thick wher if it was pressure due to weight, it would have to be liquid after a short depth. thankyou!
@dennis19545 ай бұрын
Water changes phase into ice at 32F and ice into water at 32F in a freshwater lake. The heat measured as BTU are the difference. Water is the densest at 39F at is at the bottom with 38F rising as well as 32F water rising and freezes at the surface. That’s why there is water under the ice. Never thought about it but the water must apply pressure to the bottom of the ice holding it up as it expands. Not sure of saltwater temperatures due to salt changing the melting (phase change) point.
@CrankyOtter5 ай бұрын
@@dennis1954Salt amounts vary melting/freezing temperatures of water but the reason for Fahrenheit’s zero point is that’s where salty sea ice freezes. There have been refinements to precision subsequently, but 0°F = frozen ocean 32°F = frozen fresh water ~100°F = body temperature
@AuroraIceFlame5 ай бұрын
1:35 that’s certainly what I’ve thought all my life. Interesting how something that seemingly would have such a simple answer is actually not at all. This is why I love science!
@MagicCarpet-x3m5 ай бұрын
What a fun video. Learning while watching people slipping on ice.
@Magikarp_With_Dragonrage5 ай бұрын
I KNEW IT, I've been saying that it probably worked like this for years(6 or 7), I'm glad its confirmed now so i can stick it to that one science teacher who told me i was wrong!
@Arahknid5 ай бұрын
Okay, now, why is water sticky?
@AUTISM.GAMING5 ай бұрын
It causes bonds on almost every object, basically, it is literally trying to be part of you, this is because the positive and negative charge on the H2O molecules.
@4D2M0T5 ай бұрын
Maybe surface tensions
@pourplecat5 ай бұрын
it simply just sticks to things
@Victorsandergamer5 ай бұрын
@@pourplecatlmao how is that a sufficient or even satisfactory answer in the comment section of a science channel? what's your reasoning... the H20 molecules have the same properties as glue? (which involves water EVAPORATING, mind you) or the individual atoms grabs onto things with tiny little electron arms?
@goofycat6765 ай бұрын
@@Victorsandergamerbro does not understand a joke
@WoodlandDrake4 ай бұрын
"It's complicated" then proceeds to describe a rolling conveyer line
@blazerdc255 ай бұрын
Just an interesting fact, the blade of an ice skate isn't like a knife against an ice, more like a concave lens with the edges sharpened. Love the video!
@johncage53685 ай бұрын
I like explanations that dig deep enough to actually explain something on a molecular level. Nice!
@Carface034 ай бұрын
Now that we understand ice, it's clearly time to weaponize it.
@Cajundaddydave5 ай бұрын
Awesome! We have observed this pre-melt layer in black ice which is typically at the ideal temperature for friction to vanish. A few degrees warmer or colder and friction is restored. Adding a layer of sand to the steps or driveway on the night before an ice storm gives our boots something to hang on to when the pre-melt layer is most treacherous.
@benmcreynolds85815 ай бұрын
I never stop being fascinated by Material science and all the unique ways people keep coming up with advancing our technology to study these material properties. It's really impressive how people have come up with the most ingenious ideas to build new devices to measure or visualize materials.. It almost feels like we discover a sorta cheat code to the world whenever certain discoveries get made..
@FrenchyMcToast4 ай бұрын
Because many things in science that we can't or couldn't directly observe have been depicted with approximations, simplifications and assumptions I'd always thought that molecule diagrams were one of those. I'm just now learning that the pictures in my high school science books weren't wrong.
@Matt-kl1pg5 ай бұрын
How do they make the AFM probe tip so thin?
@alquinn85765 ай бұрын
not sure about AFM but I did use a scanning tunneling microscope in a physics lab and made the atomic-scale tip myself. how? by taking a metal wire and wire cutters and cutting the wire while putting it under tension. it was surprisingly easy to do (though some people were less good at it, and had to try a few times to get a good tip). I'm guessing the AFM used here was more precision than that, but the ductility of metal allows for easy creation of a sharp tip.
@SDelduwath5 ай бұрын
Depends on the style of probe. Lithography for standard silicon ones and possibly combined with selective ion etching. Fancy geometry probes typically done in a FIB (painstaking and tedious). For high Q AFM probes I mostly used electrochemical etching though: fine wire(tungsten or gold) as anode with a platinum wire ring cathode in KOH solution and use a comparator circuit to shut off the current the moment the wire breaks which gets you into the single digit nm range.. which is small but doesn't quite hit clean lattice pics. For that you need a cold sample and an even sharper tip which typically is done by functionalizing the tip and putting a carbon monoxide molecule on the end to use as a probe tip.
@mekelius3 ай бұрын
I totally believed the pressure-melts-ice-explanation from my primary school textbooks. Which is kinda silly since now thinking about it.. it's debunked pretty easily just by the fact that having a layer of snow on the ice makes it non-slippery. And it sure is way easier to melt snow than ice by squeezing it.
@joshafflu15 ай бұрын
Paused at 0:21 would a solid of any room temperature gas behave the same?
@masternick134 ай бұрын
I'm blown away by the simple explanation of the measuring device. Thanks!
@andyrbush5 ай бұрын
That was educational and hilarious at the same time. Absolutely brilliant.
@Aranimda5 ай бұрын
Thanks. You finally answered a question I had as kid. The answer I got was that the ice melts a bit because of the friction warmth and that the liquid water generates the slipperiness. And that the water refreezes so fast that you can't see it. (When skating) I always doubted this a bit because any other smooth surface (Like metal, plastic, ceramic) that is wet gets slippery, but not nearly as slippery as ice does. But because I did not have a better explanation I accepted it. Problem is still that your answer is so complicated that I can't explain it to anyone else.
@chilael68925 ай бұрын
I'll never forgive you for not including that clip of the guy sliding in ice without falling for a solid 15 seconds lol
@theknight15735 ай бұрын
I find it quite funny how all the old hypotheses did not work for me, like how the "melting" of 2 ice cubes was brought up. Although I did not have evidence for this until you showed it in this video, to me it is clear that you did not make 2 solids into 1 homogenous solid (tho one could achieve this by actually repeatably heating and cooling it slightly so it becomes crystaline), they are very much 2 solids "melted" together. You can realise this if you ever tried this yourself and that you can break them apart relatively easily and revert back to exactly the original 2 solid objects. That is not how cold welding works to my understanding. So a more reasonable explanation would be that the surface of ice can form new hydrogen bonds to the other, making a new semi crystaline structure. In other words, you go from 2 crystaline structures, to 2 structures with a tiny third one in between, strong enough to keep them together. This hypothesis of mine to me seems to be supported by this video, using the "free" molecules to form them, tho I am curious for feedback. But in general I am intrigued that ice can behave in a similar fashion to the metalic bond, where due to free electrons, shifts in there structure are possible. But here we have free molecules. Amazing property. I wonder if beryllium has a similar effect, or if this is again another factor that makes water such a unique molecule.
@Nibor9995 ай бұрын
Water: Is there anything it can't do?? A fascinating video. Thanks so much.
@hancocki5 ай бұрын
I love how you sampled the classic "Under Pressure" riff! 😊
@jmi9675 ай бұрын
Why doesn't an AFM probe tip dull immediately on use?
@Yezpahr5 ай бұрын
Because "touch" and "feel" are an oxymoron in the explanation. You will never touch atoms. Not even with other atoms. You press within its electron shell and get bounced back before the electrons touch anything. This force is so tiny yet so fast that nothing truly touches each other. (well, unless you overcome the force of that electron shell which basically only happens inside a star or neutron star and perhaps in cyclotrons)
@aspzx5 ай бұрын
An AFM probe doesn't really "touch" the atoms that it's sampling, it rests a fixed distance away from the surface and senses the change in electromagnetic force on the tip caused by the electron cloud surrounding the atom. When it detects close separation, a feedback mechanism automatically moves the tip away from the sample and so the separation is restored to the fixed amount. This way you can move over surfaces that are not perfectly atomically flat without damaging the tip.
@BeaglzRok15 ай бұрын
@@Yezpahr The thing about this fact that I find funny is that it means a person's sense of touch is created by cells registering ratios of resistance and energy from nearby magnetic fields rather than any actual contact between matter. 50-grit sandpaper has very prominent peaks of magnetism with rigid support behind it (solid) surrounded by a much larger amount of magnetism with no support (fluid) that give the impression of something jagged. It also means you've never physically contacted anything with your atoms, even your own body's atoms. Compounds might be tugged out of place by particularly resilient structures, but it's not like they were attached by anything more than chemical bonds.
@jmi9675 ай бұрын
@@aspzx I didn't realize that it was actively moved, which makes way more sense. All I could think of is how a diamond knife works but how easy it is to destroy the edge if you even slightly move it to one side.
@jmi9675 ай бұрын
@@Yezpahr Bet you feel special knowing that. In reality, touch applies to electromagnetic field repulsion, and therefore applies here. Your comment would be like me taking a hammer to your car and saying “well technically I didn't touch it”.
@OminimonHD5 ай бұрын
man... this video made me emotional for some reason lol, there is just something special about actually fundamentally discovering the WHY of something.
@DannyIsNoMan3 ай бұрын
why are we tryin to figure this out instead of trying to get a cure to cancer?.. 😭😭
@TheCrazyCrewNL3 ай бұрын
Because not everybody is good at that kind of research.
@HippyAlex1233 ай бұрын
understand how shit works might teach us how to apply the principles to other things. also, if everyone was researching cancer we wouldnt have technology to help us research cancer 😊
@jessecolley33323 ай бұрын
Same reason you have access to a smart phone and internet
@iprobablyforgotsomething3 ай бұрын
@DannyIsNoMan -- Given that there are many different types of cancer that require different treatments and management strategies, I'd say it's a long way off until we "cure (all) cancer". But fortunately, there are types where our available (discovered) treatments are very successful and allow for such a low chance of relapse that it's the next-best thing that we currently have to "cured". But it doesn't sound as snappy and jazzy to say "we need to find the cure for all the types of cancers we aren't currently able to successfully treat" when fundraising. So people get the idea that no progress is being made in that battle's arena, just because noticeable (to the general public) progress *is* in research of another type. This just isn't true, though. If that helps.
@Lex-uq1yj5 ай бұрын
Friction playing in the background when you talk about friction, cheff kiss
@chaosschnitzl74224 ай бұрын
You say pounds per squareinch, but than say Fahrenheit for americans??
@младенец4 ай бұрын
Cheeky
@KingJellyfishII2 ай бұрын
in britain a strange system of measurements are in common use, we almost never use Fahrenheit but would often use PSI.
@chaosschnitzl74222 ай бұрын
@@KingJellyfishII somewhat stupid
@duhby5 ай бұрын
Thanks for actually adding to the paper/article the video is about unlike most similar channels.
@MistralFlacon5 ай бұрын
I'm still confused with the explanation, as you mentioned that ice was still found to be slippery in a vacuum early on, which seems to contradict the observations that showed its friction went up and liquids evaporate immediately with no atmosphere.
@Lisorael5 ай бұрын
I am incredibly relieved by this video. I intuited this answer, and thought you were going to show how I was wrong, but apparently I was incredibly close.
@rebelliousfineart82025 ай бұрын
You make it sound so complicated but everything you just said basically took me to the same conclusion that I had already drawn in my head and that even in it’s solid form there are molecules moving freely on it’s surface.
@TooTallForPony5 ай бұрын
12:32 Thank you for introducing the term "slippy" to our vocabulary! I'm a huge fan of that particular change to our language.
@kevincrinklaw74225 ай бұрын
Also: I don't know if anybody else will appreciate the subtle, yet sheer genius, of listening to "Under Pressure"/"Ice Ice Baby" WHILE WATCHING a hydraulic press menacing a giant block of ice... *chef's kiss*
@bphan115 ай бұрын
PRESSURE. The perfect blend of the queen song and vanilla ice, it’s beautiful, well done
@lovecontemplation86075 ай бұрын
That is a weird gripe on the pressure-issue even if it doesnt explain it. It would be around 400.000 pascal pressure, for a person m=80 kg. Standing on both skates. That with atmospheric pressure is around 500.000 pascal. It’s a huge pressure, but not enough to make a real dent in the melting pressure point given by the graph.
@mmenjic3 ай бұрын
0:14 to widen your experience, take those two dices press them really hard, they will become one object, by your definition of one object, so you are just weak not unexperienced in making one object out of two.
@r1e5p3l7i2c4 ай бұрын
I’m always surprised at how good human’s are at just feeling out the near optimal conditions like in the figure skating case.
@codiserville5935 ай бұрын
that science went way deeper than I expected it to. And I never could initially make sense of the pressure, re-melting theory
@AmpliphyHD5 ай бұрын
I live in Canada, I’ve slipped on ice when it’s -30c outside. No water layer, it is slippery always. Good tests guys.
@stephenkolostyak40875 ай бұрын
You proved it in the title, it's suggested in the description. ...this raises my hackles due to a lack of friction.