The bubble that breaks maths.

Its so weird, I just happened to go to check your channel for the first time in a while and you had this video just uploaded!

360p gang poggers

I finished the video in low res but had to go back to watch the bubble breaking in HD it looks so good!

I just refreshed to get the 1080p and not only do i get it, I get this comment too 🙃

Glorious 8,294,400?

Works with chemistry too. Solubility, precipitation, adsorption, reactions and a bunch of other stuff is basically just doing complicated things with energy.

I laughed out loud at this awesome line. He just "yada-yada-yada"-ed all of science and engineering.

this is exactly how i graduated high school

Pro-tip. As a professional career physicist, this is typically my first guestimate method of reasoning when coming across a new problem. Once it's given me an intuition for what's likely to be going on do I move on to more rigorious methods.

F=MA everything else is decoration.

And they call physicists for making approximations....

@@maxwellsequation4887 Just assume the physics approximates math.

I would say his response to how the maths broke down predicted when the physical world broke down corroborates your statement fully.😉

It's called Parker's First Law. Look it up.

In the Netherlands, most people program in English because the keywords are English anyway, which also means foreign people can read it... Though there're some who write their comments in Dutch, and there're some heretics that use Dutch words to name their variables/functions/classes

@@nicjansen230 I was making a joke about how English people say 'Maths' and everyone in America says 'Math'. Thanks for the insight though.

@@jtherrie I know. I just like saying people are heretics for using another language than the keywords in programming... And I like harmlessly confusing people before popping the bubble, so thanks for the reply :P

I never thought of doing that. I'll try that next time!

@@nicjansen230 It's similar in Germany. I prefer to keep everything English only, including comments. But sometimes the occasional German word slips through. And then there's people writing everything in German only. Or even a mix of both, which is even more infuriating. Most of the time that happens when multiple people with different naming schemes work on the same project.

+

yep, I expect no less

+
Thanks for pointing it out; I didn't even notice (and I *did* read the code)! :D

And yet, Mathsbook Pro was left right there. xD

9:58 and 10:27

I need this on a t-shirt

kind of crazy to think about

Didn't you mean "maths stops working"
Just asking.

@@terryshippee4996 FYI, in North America, there is no "s" in math. But I watch enough UK TV that I say it both ways in my head.

reminds me of black holes.

Thats awesome!

Are these lectures accessible somewhere?

@@yasheesinha8181 Mate, 1890 is Victorian times, so definitely not video.I don't know when his exact lecture was, but certainly pre-WW1, maybe there's a transcript with diagrams?

Oh, not going to lie, I thought this was modern and CV Boys was some kind of youtuber. In that scenario, the 1890 bit--in my head--seemed like a typo.
But no, no. Not at all. No.

@@hareecionelson5875 there's a book ... with diagrams

Or the more recent video with Hannah Fry where he fails to estimate the size of the Earth.

I see you all the time in curiosity show comments, nice to see you here too lol

I think the nerdy part might be when video man does calculus

@@biquinary thank you. Been a fan of Matt Parker before I found Curiosity Show. But I do enjoy them both.

Don’t care, bubbles are awesome. I used to literally take an hour to do the dishes because I was so engrossed in playing with the soap bubbles. I may be a nerd, but I’m a proud nerd, and anyone who thinks that’s a problem isn’t worth my time.

Yeah, I think that's because he set both end diameters to the same, but otherwise it could be something else.

@@sly1024 True

I wonder if he knew this and choose to use the Newton method because he wanted to highlight the instability effect

That is if the rings have equal diameters

I was thinking when I saw Matt's Cosh equation "There has to be an x _somewhere_ or else it would be constant", and by simply analyzing the x=0 case, one could tell right away that a is not affected by x, so b must be a function of x, and the fact that the first b he calculated happened to be _extremely_ close to half of .5, my intuition made me suspicious.

But actually he got it the wrong way around. The maths break down because reality breaks down, not the other way around.
Which actually isn't supprising, because the maths were chosen to model reality.

@@schwarzarne He didn't say that maths breaking down was the cause of reality breaking down, he just said that when maths broke down is when reality broke down. He didn't talk about causality at all.

Vincent, I remember doing an undergrad lab using wires to polarize microwaves. That's amazing that they can be made fine enough to work for uv!

That sounds really fascinating! Do you know why that change happens yet? At the moment I can imagine it breaking at equal wavelength and distance (guessing the light will end up scattered into an interference pattern). But why the narrower wires work differently eludes me. 🤔

@@widmermt I did do microwave polarization using grids too as a previous project. For UV, we used self-assembling materials (diblock copolymer thin films) which produce line patterns with 20 to 55nm period, way too small to make by "hand".
Edit: by the way, inexpensive regular polarizers (for sunglasses, for example) are done similarly, electrically conductive material in a polymer film which is stretched in one direction to align the polymers, then died with materials conducting at the visible light frequencies. Works well for visible, but UV is too short for that (plus most substrates like the plastic or glass of sunglasses are opaque to UV, which is good for your eyes).

@@witerabid It has been a long time and I have not had to dabble in that area of physics since. Re-reading my thesis and trying to understand without going through the math all over again:
First, I remembered wrong, the period of my material was much lower than that of the UV light, so that was not the cause.
It has to do with the plasma frequency of the metal used (aluminum). All metals have a plasma frequency, above which the metal becomes essentially transparent to light, a phenomenon referred to as the "UV transparency of metals" since it usually happens in the UV range. Aluminum has one of the highest plasma frequencies, so that it becomes transparent "only" for wavelengths shorter than 99nm or so.
However, when you have a grid of material instead of a solid piece, the grid's characteristics are that of the average of the metal and air. Thus, through some math, it is possible to show that for the E polarization (electric field parallel to wires) the plasma frequency goes down by the square root of 2, so the aluminum grid becomes transparent below 140nm or so (in theory for pure aluminum, which was not the reality of my experiment, as aluminum oxidizes quickly in air). It is also possible to show that the dielectric constant of the H polarization (perpendicular to the lines; I know I am adding new terms without defining them, sorry) is inversely proportional to that of the E polarization, so that when the grid becomes transparent to the E polarization, it becomes reflective for the H polarization.
Then as one goes down in wavelength (up in frequency), the aluminum itself becomes transparent to light, as stated above, so then it does not matter, nothing is polarized.

@@vincentpelletier57 Ok, that sounds even more fascinating. I never got into metals or light much during my physics degree. 😅 In the end it was mostly theoretical physics and math(s). So, all the experimental and material physics never seizes to baffle me. In theory, everything should be predictable with some calculation but I never know where to start. And metals do some really weird stuff which I guess I can now add one more mystery to. 😋 Thank you for sharing. 😊

lol he just had to correct it

where?

@@Kokurorokuko You don't see that line specifically, but you do see all the maths., which can only happen if he imported math as maths

@@Kokurorokuko it doesn't say "import . . . " but the library is called "math" but in the code he used "maths" which means he must've written somewhere "import math as maths"

@@ayrtonsenna6311 got it

Yadda yadda yadda. Etcetera, and so on...
Sometimes

Not all of the often it's something/something (angular) momentum.

And if nothing's happening I reckon it goes:
Something something (Potential) energy
Idk if that's correct.
But it's clearly got potential.
....
I apologise for nothing.
🎩👌

Me: "I can't see, but this feels like something where a catenary would come in..."
Matt: "It's a catenary..."
Me: "Go me!"
Matt: "But you can't calculate a and b exactly."
NO!!!!

This is toxic Mathsculinity.

I can't get over Matt's pronunciation of "catenary." Is that standard British pronunciation? In Philadelphia, electric trolleys get their power from CAT-en-air-ee wires.
It's very satisfying to see that it's the same, and it feels intuitive. There's a tension force pulling the line to be shorter and an attraction "force" pulling the line towards the center of the circle - kind of like gravity in the case of a chain.

No it burst maths open

Immer diese Klugscheisser :p

Wie geht's, Papa?

Can you make a video explaining the solution to this minimizing problem (explaining all the identities used and so on)
Love your work!

nono, it's the math that pops the bubble

I noticed this as well. When the fixed points have the same radius (distance from the _x_-axis) and one is located on the _y_-axis and the other is some distance out along the _x_-axis, the value of _b_ is just half that distance. If the radii of the fixed points are different, though, _b_ will be offset from that value.

The inverse cosh also won’t work since „something with a“ * cosh(„also something with a“) = something else generally cannot be solved for a algebraicly. Even the most simple a * cosh(a) is doomed to be solved numerically.

It is true that with symmetric boundary conditions for this zoomed in/out (by a) and x-shifted (by b) version of cosh(x) {which is [exp(x)+exp(-x)]/2 by the way} b is exactly in the middle, but I guess he used slightly different values for the ring and the basin.

@@lightningblender This kind of thing is something I've been working with recently, and yeah. The reason we can solve things like 3*a + 2*a = 15 is because we can say 3 * a + 2 * a = (3 + 2) * a always, and so combine our two 'a's into one. So in order to invert some `f (g a) (h a)` wrt a, we'd need to know some identity with f, g, and h to get some other already invertible function f' such that f' a = f (g a) (h a). In the case of distribution/factoring, we know that for f = (+), g = (n *), and h = (m *), we have f' = ((n + m) *), which has an inverse: inv f' = (1/(n+m) *).
This is the same problem as with x * e^x, whose inverse is the Lambert W function, which can only be computed numerically. (Speaking of which, I bet we *could* write an inverse of a * cosh(a) in terms of the Lambert W)

@@MCLooyverse but this does not change the problem of needing to compute the result numerically. In fact, all trig functions including their inverses and hyperbolic variants, already can only be computed numerically (except for separately checked special cases). You are simply summing over the taylor expansion and then stopping at some point. These super general functions like Meijer G and Hyperbolic PFQ but also Bessel J or Gauß erf are just a name we gave to very useful functions. LambertW is no different: we had a problem and then decided to give it a name. Nevertheless, I don’t think Lambert W will yield a result. Normally, Mathematica is fairly skilled in solving such equations, but yet, it didn’t find any and my other reasoning is, that since cosh contains exp(-a) and exp(a) summed together they won’t combine into a single exp function, that’s required for Lambert‘s W function.

:kek:

Yes, that's G. H. Hardy level mathsiness right there.

I do agree 😂

With appropriate hand-waving gestures

I would love to be the librarian in that city!

It looks a lot like the Science Center in Toronto. I guess since I grew up with such a place close to me, I just thought every major city would have something similar. I hope that's true. Hmm, just realizing most people haven't been to such extravagantly large science center like TO, I'd bet my family up north have never been, tiss a long way. I went like twice a year growing up. Guess I was science spoiled.

@@Krumm420 The San Francisco version is the Exploratorium

@@Krumm420 Halifax has something similar too (Discovery Centre) including a bubble room. Absolutely fantastic place.

This is toxic Mathsculinity.

Maybe 3b1b will get around to a 12-part series in 25 years....

PBS Space Time touched on Euler-Lagrange for about 10 seconds in their latest video (all way over my head)

@@cholten99 yes, it's exactly the same principle in that video. You are trying to find a path that minimises action in that case, and a path that minimises surface area in this case, and this is exactly where the E-L equation can be applied to solve the problem.

@@stanleydodds9 Out of interest, do you think this could be represented as a dynamic optimisation problem where you apply optimal control theory? I was wondering how the problem could be formulated.

I would guess that what "fell apart" there is just the assumption that cosh solves the Euler-Lagrange equation beyond this critical point, but I haven't dealt with this kind of math for too long to check it by myself

Doesn't have to be a whiteboard. When I was at university there were movable chalkboards in the bigger halls so you could discuss whatever was at the top of your head with your peers whenever you liked.
I think pieces of chalk might be cheaper than whiteboard markers and they have a nice old-school (ha!) touch IMO.

Or if that doesn't work the Royal Armouries Museum is close; about 10mins drive.

Mathematician: "My calculated value is within about 10% of the real value, awesome!"
Engineer: O_o

Physics is just maths with silly restrictions like 'reality'

My physics teacher used to say that Physics is just "applied maths", and theoretical physics is just "can't yet be applied maths".
Probably a good job he wasn't an English teacher.

I mean most of physics is math.

@@danieljensen2626 By definition, P
physics is using math to describe the physical world. Just as economics is using math to describe the economy and biology (or at least, part of it) is using math to describe biological systems.
Again, I'm just happy he doesn't fall into this hole of "let's define everything", and just does what he likes

Intelligence sometimes warps the reality field :)

Technically yes. The shape locally-minimizes the combined surface energy plus gravitational potential energy, but a soap film weighs so little that gravity can be mostly ignored.

Yep, you can also see the air pressure change the shape as Matt moves

Yeah, it being a catenary sort if gives this away (shame he just pulled the formula out of thin air to be honest)
A catenary is the shape of a rope under gravity, so exactly two forces acting on it. The tension (latterally) and gravity vertical. The soap bubble being modeled as a catenary shows that one force is used inwards to minimise surface area and the other force is the tension along the soap bubble. No room for gravity or air pressure :(

the force exerted b the surface tension of soapy water ain't much ... but a typical soap film is usually thinner than wavelengths of light. Not much mass ...

Everyone seems to ignore that Matt heats the air around himself, that's why we have an upward airflow that tries to pull air "inward" at the bottom.

This! I tried to think of an analogy between the chain and the bubble but failed xD
saw your comment, read it like 7 times to finally understand it, but seems to make sense.. I wonder if the chain collapses at the same point as the bubble..
Also, if anyone else tries to understand this comment, try to picture the chain 90° rotated in reference to the bubble ;)

@@hubi.92 Yes, it is modelled by the same variational problem (the one written by Matt: minimize the integral of y*sqrt(1+y'^2)dx).
The chain minimizes its potential energy. For the potential energy (U=mgh) you may arbitrarily choose the initial level (where h=0). But by putting the chain heap at the "floor" we choose the zero level to be there. Then we do not need to account for the p.e. for the chain in the heap, where h=0, and the vertical segment gives constant summand in p.e., so it can also be ignored.

@@alexeyklimenko4387 yes now i see the connection.. with the bubble you try to minimize the surface area dependent on radius and heigth at each point and with the chain you minimize the p.e. with the heigth of each "infinitesimal mass element" and the number of these elements..

@@alexeyklimenko4387 but i think you can't consider the chain heap in a mathematical formulation, more like that the chain is generated from nothing at the end of the vertical segment.. you can see this by putting your reference plane for the p.e. at another height, then the solution would be dependent on the chain reserve in the heap and that can't be..

Filthy reality... ugh..

When I get married I demand that this video is played at the wedding.

Well, it can also crush one's soul, js. ;-)

Jaaaa Gießen!

I thought someone might comment about it before me! :D
I've been to the Mathematikum several times actually, with family twice and once with the school.
And in one year they had an exhibition that travelled around germany and also to my city

Mal sehen wie viele Deutsche jetzt die Kommentarspalte fluten xD

Gießen has the 'Mathematikum' which is also very similar

Or rather complement [to] sine. (as wiki says, The word cosine derives from a contraction of the medieval Latin complementi sinus.)

"Seeing" or "deducing" tho? :-B

Surely that could settle on a local minimum, not necessarily the global minimum?

The square of a product equals the product of the squares, which means (x^2 * y'^2) is exactly the same as (x * y')^2 .
For example 2^2 * 3^2 = 4 * 9 = 36, which is the same as (2 * 3)^2 = 6^2 = 36.

That's not the traveling salesman problem. In that problem you can't add new intersections (known as Steiner points) but the soap film will. Also the traveling salesman problem is about planning a tour of the nodes in an optimal order. The soap film doesn't say anything about how to traverse the network optimally, it "finds" a network of minimum total length. The problem it solves is known as the Steiner Tree problem.

@@Quantris thanks for the clarification. 40 years makes the memory of exactly what they said a little fuzzy

In 3d modeling software such as sketchup you can create a torus by extruding a circle along a larger circular path but this wouldn't apply to a system trying to minimize surface area.
I suspect it could be done if you used Centrifugal force while making it but it would quickly collapse in to a sphere once you stopped applying the force and trap the air in the hole as another bubble.
[Edit] Yep watch?v=9ZoQLk61v88

Eyebrow raised.

They are generally known as Parker Towns

Always has been.. 🙂

"maths are" , it's plural!

It's Python code, no one actually writes Python code that isn't terrible.

You’re going off on a tangent there.

@@Colopty haha - that brightened my day. Cuz I don’t have to write python. :)

@@Colopty Dean's joke is that the whole video is about a hyperbolic function.

He just "yadda yadda"'d maths! lol

He skipped the boring, gross, practical physics.

"a load of maths"?

Yeah I had hoped that he'd at least gone until the lagrangian formulation and maybe do something crazy like solving the differential equation in Excel or Python numerically (which you totally can do!). But just giving the solution was very underwhelming.

Counterpoint: It is never a good time to introduce calculus of any kind

@@PatrickZysk Counter^2point: It’s *always* a good time for calculus

I get that. To be fair, there isn't really an entertaining/non-confusing way to present the calculus of variations to the layperson. Or at least if there is, I'm not creative enough to think of it.

I think that would have turned off a big portion of the audience (though a much lower portion of those who comment) but that kind of thing would be really cool to see on a companion channel for those who would be hyped about it.
Edit: Actually, I'd be really interested to see him upload a video with all the gritty details you would have wanted here, and a follow-up with watch time statistics to see how many viewers left at that point compared to a similar length video. I may be totally wrong, who knows?

Blah blah, something something energy and so on, etcetera... Yadda yadda yadda.

He is still surprised when math models reality. Mathematicians, that's what math is for.

OK so, you know all those "Future Matt" appearances in his videos..?

I don't like how he writes the multiplication dot. He uses \ldot …. for multiplication and \cdot · for decimal points. I'm the opposite. I write 2.5 · 8.7, whereas he writes 2·5 . 8·7. What the heck lol. I first noticed this on another (older) video he did about calculating π by hand. I'm triggered! :D Is it an Australian thing?

@@robertjenkins6132 As near as I can tell this is a Matt thing. At least he doesn't mix commas in there somehow lol

Thanks, I was wondering about about.

Same thoughts. I was partially expecting him to say he'd centimeter his way up.

PS: The best part of this video was realizing that Matt named is computer a MattBook-Pro!

ok

AHHH

Same

Me too.