How to find Stress Patterns with Polarizing Filters

The first 1,000 people to use the link will get a 1 month free trial of Skillshare: skl.sh/thescienceasylum09221
*Correction:* The segment about safety hammers has been removed from this video. Some safety hammers do actually work very well. Thanks to diligent commenters, I've since done an experiment and released a correction video: czcams.com/video/0tmLh_eSpQU/video.html
*Clarification:* The side windows and _rear_ windshield are tempered. The _front_ windshield is annealed. Sorry for any confusion.

"Light is literally all we can see" is so simple a statement that it sounds silly. But since I've been going through your videos on cosmology I've gotten a handle on dark matter and understand that light doesn't interact with everything. It's... uncomfortable knowing that some ideas that we take for granted (like light being the mechanism through which we observe ALL things) hide ridiculous facts about how the universe really works.

4:25 That "chip" in the edge of the protractor is where the plastic was injected into the mold. That's why the stress is oriented to it.
4:35 That "crack" likely indicates that the plastic was injected near the hidden upper corner of the triangle, flowing around both sides. The "crack" is where the 2 flow fronts came together.
Yes, I spent a few years in the injection molding industry.

Hello. Nick, I did not expect this topic here on the channel but as an engineer for material science I aprove!
I would like to ad a short explanation how tempered glass is made and how it works, for people who would like to know/understand.
Very hot glass (the car window!) is quickly cooled from the outside. When this happens the outer parts of the glass starts to quickly cool and when things cool they generally shrink a bit. No problem yet because most of the body of glass is still hot and can easily adapt to the shrinking outer layer. But soon the inner volume starts to cool down too and at that point the outer layer is stiff and can not easily change. But the inner parts need to shrink! (The atomic forces who hold the material together are very powerful and demanding)
What happens is that the inner volume contracts but the outer layer can not move and this causes the outer layer to be compressed (more than it wants) and the inner volume to be pulled apart (because the outer layer does not move much).
So why does this help against damage? Home experiment! Take a bunch of pillows and put them together on the table. Punch them and watch them fly through your room. NOw have another person take the pillows and press them together with both hands. Punch the pillows again and.. the pillows stay where they are.
The compression forces in the outer layer function like the hands of the person holding the pillows. To "push the glass apart" you need to overcome these forces first which makes tempered glass much more resistant against damage.
I hope this helps.

The sharp point tools actually work quite well, your problem is your glass isn't secured, and just flexes and bounces away. In a car, the glass is secured by the doorframe, with extra pressure from the water pushing in. There's lots of youtube videos of people testing tools, most of them work just fine, with the best having a spring-loaded punch similar to one you'd use to mark metal prior to drilling.

Next, do a video with three polarizers. Whenever I see more light coming out when adding a filter, I really "feel" quantum mechanics.

Took me quite a few years to find out not everyone can see stress-patterns without any tools. Turns out only a very small percentage of people can actually see them.
Needless to say, I got even more interested in them!
Opticians use polarizes all the time to check if the lenses in your glasses are mounted properly!

Sandwiching something in between two polarizers is an useful tool to pathologists since it allows them to differentiate between different types of microscopic materials based on their molecular isotropy (or anisotropy). Like, it is used all the time in microscopic tissue sections to detect amyloid, a class of misfolded protein that causes amyloidosis. Also there are uses of polarizing microscopy in geology to tell apart different rocks. You could do an episode on such practical uses of polarized light microscopy. It could be interesting, at least to me.

I love how Nick keeps the bloopers! 😄😄 Pure genius!

I recently finished a first year module in Material Science and we literally did this exact experiment! Your videos were a huge inspiration for me to study an undergraduate course in Physics. Thank you so much!

I'm pretty sure you struggled to crack the tempered glass because you allowed it to move, preventing the kinetic energy from turning into pressure (stress). When you hit the corner, the glass was pinned to the floor at the contact point, it couldn't move, so all the kinetic energy was turned into pressure energy, exceeding the internal allowable at that point.

"Light is all we can see." This is quite beautiful.

The 3D animation used ramps up your production, great work .

Giant ball of stress 😂 Thanks for all your hard work, I've been an avid viewer of your videos for already quite many years, and I love everything you do!

Amazing! I happened to have a pair of sunglasses hanging off my shirt, and a clear plastic rule under my monitor, so I put the sunglasses on my face and held the ruler up to the screen, and voila, rainbow colors and stress patterns! I especially like how the colors are the most intense when the sunglasses are rotated 90° so that the light from the screen goes black except where it's shining through the ruler, which reorients the light so that it can be seen. I've been alive 63 years and I'm reasonably science savvy, and yet this is the first time I've heard-of or seen this effect! Thanks for bringing this to my attention! Subscribed, liked, and playlisted x5.

Always love your vids. You always tend to explain things in a way I can always understand which is sometimes difficult to find. And sitting down for a little science lesson kinda reminds me of the old days with Mr. Wizard when I was little. Keep up the great work!

Unknown to most of us, humans actually do have some capacity to tell polarized light apart from unpolarized. A blank sheet of paper will simply be white, uniformly and equally, no surprise there. But on a standard LCD or OLED monitor showing a blank white canvas, by really focusing and also tilting your head every so often, you can see a blob of yellow and blue in the shape of a bowtie. It's slightly different from person to person, some people see patches where the screen is slightly darker but don't see the colors, some people do see the colors with no change in brightness, and sometimes the effect can randomly disappear.

Wonderful video! When I was a TA, the demos I did with polarized light were the most popular (and most beautiful). Thank you!

Nick this video fascinated me so much, u are doing a great job, I kept searching for things to check them out under these polarized glasses hope to see such surprises in upcoming videos too

Tip. If you break a spark plug and collect the broken ceramic pieces that result, simply toss them at a tempered window, the window shatters with hardly any impact at all. Something about the harmonics I suppose. But just a little shard of that broken ceramic casually tossed at the window and it shatters. Might be worth looking into and doing a video to confirm exactly how that works.

Thanks for letting me know how to experiment with this phenomenon using just my sunglasses and a pc monitor! On the other hand, my wife does not appreciate it greatly because I am searching through the kitchen for every transparent bowl and gathering them on my desk for inspection.

I already tried it before the video's end. Amazing experiment. My daughter loved it and so did I.

Always a fan of your videos, Nick!

this vid shall be a wonderful addition to my "birefringe" playlist.

One of the first things I bought when I started as a ohysics teacher - linear and circular polarizers as well as cmy and rgb filters. Theater supply usually has those as foils for reasonable prices.

I recognise those patterns in the Plastic equipment (protractor, rulers etc.) we had in High School. I wonder if there was a enough Polarisation going on in my glasses to account for this. Nice to finally have an explanation for what it was.

Very interesting. I wish everyday stuff like this was more common knowledge. You're definitely making that happen!

@Science Asylum I've noticed that the pattern or order of colors in the polarizing materials is the same as in thin film interference. That makes sense because the change in phase of the different wavelengths of light differs the same over distance for the rotating field vector as in the transverse sinusoidal oscillation does over distance inside of a thin substance (like a soap bubble). I've graphed those colors using simple wave theory in kaleidagraph and with a little color theory knowledge, my predicted colors seemed to match well with the observed colors. You can take that as a hint at a suggestion for a future video, if you want 😉

Your videos put more "light" in our world! 🤩

I just love it when you say "It's okay to be a little crazy".

Thank you for the video. Also great book by the way. Compact, to the point and comprehensive. A great refresher and review of all fundamental physicist.
For those interested, polarization is the manifestation of spin for photons (quanta of a mass-less vector quantum field). It is the same quantum phenomena but with different names and histories of discovery for electrons and photons.

your videos always amaze me, though i don't completely understand them as i am a student still learning those big terms but they are..umm.. precisely great

You know it's funny, I knew about all the individual bits of information that made up this video; LCD screens have polarised light, Clear materials can show their stress patterns when placed between two polarisers. But I never though to use my screen as a polarised light source and to look at stuff through my sunglasses to get this effect. I'm very annoyed that I never even made the connection because I've always wanted to check out the stress patterns of stuff.
So thanks for the awesome video, I'm now running around my house getting every clear glass/plastic thing I can find and holding them up to my monitor.

This *really* makes me want to see the Slo Mo Guys revisit the Breaking Glass video with polarizing filters. I wanna see those colors change *as* the glass breaks.

Oh Wow, I cant wait to figure out what those are I've been seeing them since getting my new sunglasses.

Hello Nick, I am new to your channel and find your detailed explanations extremely helpful!
Would you mind doing an episode explaining why solids have color? I think there are a few different absorption mechanisms out there, like F-centre or van der Waals. A video about them would be amazing. Thanks in advance!

I was actually wondering about these since Ive seen these in my car with my polarized sunglasses. Thanks!

i really like your videos! I was going to do a linkedin post about this over the pandemic, but never got around to it. Couple of notes: "stress rings" are usually called fringes, like when looking at the moire effect and probably more technically correct to call strain rings since it's really the spacing of the molecules that alters the polarization of the light. You can actually buy off the shelf polarizers and materials that are basically calibrated to measure stress (you put the clear stuff over a thing and let it stretch) and a color coded chart is provided to quantify the stress of each color. Something not touched on your video, which I'm probably just telling you something you already know, but if you rotate your polarizer you can determine the directions of the stress in the material also. Birefringence is cool!!!!!!!!!!!! lol, nice job, you're doing awesome stuff.

Finally a way to use that quack high power polarised light source I got a while ago. Bioptron I bought that was faulty, but which was a very easy ( actually free, using scrap parts) fix for me to do. Had no real use for a 50W polarised light source till now, just have to find some polarised film to use it.

Cool! I just tried the glasses from the 3D movie theater and a cell phone as the source of polarized light and I can see stress in the plastics as well.

Thank you for the video, great job...

Sometimes, Your video are difficult to understand (due to the complexity of the subjekt). Sometimes, Your videos are relatively simple (but even teach me some new aspects like this one). Sometimes, I allready know the physics You are talking about (It had been part pf my business) Sometimes, it’s all completely new for me. (Due to my limited knowledge.) But, it ALLWAYS is a very incredible fun to watch Your videos.

Great video on glass and polarized light. I notice one thing you didn't mention but touch on tangentially. The amount of rotation is dependent on the frequency of light. Circular polarizers take into account the frequency of light. Most Sun glasses are linear polarizers.

Love it!
Thanks!
😊

Amazing nick ❤️

I love this guy.

I always wondered what these points are on the rear window when i look in the rear view mirror with my polarised glasses on, thanks nick.

playing with polarizers for the first time in physics class was cool. if i recall, a really cool object to look at under this effect is a prince ruperts drop.

I've always wondered what those circles in automotive glass represented. Thanks for answering it.

Firefighter/rescue worker here. The glass would have broken if it had been secured in place. This glass is amazing at distributing impact force. The strikes you made deformed the glass as it is made to do. It’s an excellent example of how well we have learned to manufacture safe materials. That said the tools you used were made to strike this glass when it has a very limited area that the material can use to deform and flex. I can’t speak to the usability or performance of anything of the tools you had tested.
Something with a small enough impact point works great on vehicle windows so long as you give it plenty of force. I’ve used a spring loaded windshield breaker for years. It takes much less force than swinging any kind of hammer tool. It shatters the window without endangering the occupants and causes almost no material to be ejected into the vehicle. The impact point is extremely small and it takes little force in comparison to a hammer.
I absolutely love your channel. I hope my explanation doesn’t seem rude. I am definitely not an expert in physics. Would love if you could make another video giving reference to how the size of an impactor can make a huge difference in effect. I’d use that for training. Thank you for the wonderful work you do sir.

I think the graphic at 2:13 depicts a Laser , not just common polarisation , as the waves are also all in phase …. Also I can vouch that the hard tipped glass breakers do work . I noticed your example of glass was not rigidly constrained around its perimeter and was able to bend under the blows . In a car or window frame the glass is unable to bend as freely especially closer to the frame , and the tool is able to work as intended.

I appreciate that this video was designed with cell phone orientation in mind. I happen to hold my phone on it's side.

A different kind of video this time. Love it anyway.

I tested it with polarising glasses from a 3d cinema and wow it's so cool.

Loved this video.👍🏾👍🏾👍🏾

Prince Rupert drops are probably the best tool for looking at stress patterns in glass. The tension curve on the inside is so extreme that it makes the most vivid examples in polarized light. 😁

We've used this technique to find defects in door glass for residential ovens where I work. That tempered glass has to be perfect, or it can shatter during cooking cycles. Don't want that to happen in somebody's kitchen.. There are some REALLY cool stress patterns in that glass, too. You'd never know without using a polarized filter like this.

Someone on s/askphysics asked how CZcamsrs like Veratasium and kurzgesagt were as far as videos go. Turns out Fermi labs, pbs spacetime, and you were in many of the responders top 3. I totally agree!!!

I find polarising filters can be divisive.

Thanks for sharing

The main reason car windows are tempered are for crash safety, but basically for the same reason you mentioned; no big sharp pieces being thrown at you. Car crashes are a lot more common than cars being fully submerged.

Great videos, thanks!

One person in your 2017 video about polarized glasses had commented about this.

Thank you for the video.

I got some Oakley "fishing" glasses a few years ago. I don't fish, but the mirrored reflection was a and that's what I wanted :V Anyway, they have STRONG polarization and when pairing them with a motorcycle helmet it makes a cool but sometimes disorienting effect and ofc it's related to polarization! First off, cars change color with their angle to you. They're dark when coming at you, but shift to a lighter color as they approach 90° to your vision centerline. WATER is super trippy, and can appear doubled at some angles. I got prescription lenses so I hardly wear those glasses any more but I was walking my dog by a pond and noticed "holy crap! I can see all the fish!". Product functions as intended.

This man is genius 👍

due to how tempered glass is made the edges cool down faster than the rest of the piece . hitting the glass edge on will break it just as easy as annealed glass . there is also an in between temp and plate (annealed) called heat strengthed that breaks similar to temp but in bigger pieces in a less chaotic fasion

First off, great topic, and as usual you revealed a tidbit that helped upgrade my knowledge to a new level. Particularly about how a material can rotate the light. Also got questions related to that:
3:25 Where the plastic rotates the light:
1) what in atoms is rotating the light?
2) if plastic can rotate the light, and the effect between two polarizers will depend on wavelength, then why do so many video demos of polarizers act like it's such a mysterious quantum effect for a 3rd polarizer to change the amount of light coming through two polarizers?

I love polarization and dispersion so much I carry around polarizing filters and a diffraction grating. :-)

Neato! Now I want to look at all my plastic stuff under polarized light. Too bad I don't have any polarized sunglasses, though.

Thanks Nick Sir for making such amazing and complicate topic videos in such simple language
I'm just in 12th grade and ur videos really help me a lot to deeply under my School textbook topics very well
Usually school teacher just explain us how it works but not why only it works ☹️
U r the one who tell why only it works 😁
And not joking but I showoff infront of my friends about knowledge u gave to me especially 'Gravity is not a force'video 😂
But unfortunately I can't donate or join ur membership 😕😕 as i'm just 18 and my parents don't allow it too😕
But I watch ur videos regularly to gain more knowledge and commenting it just to tell u about that 😊😊

Awesome video, I kinda always wondered about the spots, although I'm wondering if they might be from the molds themselves, seeing how auto glass is made, the molds are not what you'd think.
They basically are a "Table" for lack of a better word, made of a grid of rollers that can be adjusted up or down to set the curve of the glass.
And I'm thinking since the spots basically line up with the grid of the rollers if the glass cools faster at the contact points creating those stresses the polarization allows us to see.
If that makes sense.
Also
As someone currently working in the auto glass industry as a tech, and for some time now, a few corrections: (to the best of my knowledge and understanding)
A: On a lot of newer vehicles the front door glass is now laminated annealed glass, like the windshield. Meaning it's not going to break into a thousand tiny pieces, it will hold very strong even if broken and take a lot of effort to make fully fail. However the rear door glass, or backglass should be tempered.
The way to tell is to look at the glass, there should (by law) be markings on EVERY piece of glass that states laminated or tempered along with other info like brand etc.
B: Tempered glass is very unlikely to shatter from the force of impact going into a body of water, unless it hits head on, you should 100% have a glass breaking hammer similar to what he showed in your vehicle..period. You should also have a seatbelt cutter as well.
C: As to the point above, the reason the hammer failed in your test is because it was not secured on the sides allowing it to dissipate the energy. These hammers are intended to break tempered auto glass in an emergency to gain access in, or out of the vehicle, that glass will be secured on all sides and will break. He is 100% correct that the edge of any glass is the weakest point.
D: Not so much a correction but if you find yourself a body of water and sinking, the very 1st thing to do is roll down the window, power windows are not likely to immediately fail as there is water proofing, the inside of your door takes on moister normally.
E: Purely a nit pick, there is only ONE windshield in a vehicle (unless it's a split windshield) everything else is a front door glass, rear door glass, Back glass, vent glass (opens as part of the door but does not roll up or down) quarter glass ( stationary glass that does not roll up or down, and does not open with a door.)

Oh I need to try this on transparent FFF (3D) prints.

Because of Brewster's angle acting as a second polarizer, you can see photoelasticity by simply looking at the reflection of LCD light off of plastics like polystyrene - no second polarizer needed.

Learned this about 35 yeas ago from my father, one of the only good memory I have of him.

to those curious, you can see polarized light yourself! physics girl has a video on haidinger’s brush, and its orientation in your vision is dependant on the polarization of light coming in. i’ve trained my ability to see the pattern enough that i can easily spot it in the clear blue sky 90° away from the sun, with the yellow lobes in the pattern pointing to where the sun is. you can also see it while looking through polarized sunglasses or an LCD screen as mentioned in the video here.

I love your t-shirt! Relevant AND Enterprise D - the best Enterprise!

The magic of dielectric tensors

Dang! Great video, as always I'll use it in my physics classes when I teach wave optics. If you keep this up, I'll just need to have my students watch you instead of listening to me (I know they'd rather do that....)
Also, an automatic center punch will usually shatter tempered glass when used in thge center. I had the misfortune of learning this when my car was burglarized a few years ago.....

Better tool for breaking glass is a "spring loaded center punch". The PSI is much higher in the tiny point, and the window shatters easily. They're cheap, small, and you don't have to swing anything (you just press it into the window until it clicks). I keep one in my car - less for finding myself in a lake and more for if I need to get someone out of their car in an emergency. Another interesting method (but not practical for emergencies) is throwing a piece of broken spark plug at the glass. The ceramic does some interesting science - there are youtubes showing throwing rocks vs throwing spark plug chunks, and the difference is amazing.

To get a pretty fascinating Effect One needs a Pair Polarisation Glasses with round Glasses. Plop One Out, turn it a few Degrees - I have One at Horizontal and One 45° turned to the Left and plop it Back and One gets a 3D Effect in Reality or even more!!
I know not really, but pretty fascinating and revealing!
Works best during the Day :)

So good

I worked for about 6 years with Alvin and Mortimer Marks, the inventors of polarizing films. Amazing the things that can be done with polarizing light, including making old time 2D movies into 3D movies, polarizing photovoltaics ( LUMELOID), stealth materials ( absorbing UV visible and IR light).

Good stuff

A few cars do have tempered windshields, with spots and rainbow coloring all over, that is vey noticeable from the outside at least on certain days.

When I first got a polariser filter for my camera I did this. Just pointed it at my computer screen and took pictures of various transparent plastic objects, such as bubble wrap. Just because it looked cool, nothing scientific about it.
Also, there's a glass museum in my town, they have some polarisation experiments in their collection. Always fun to play around with.

On a side note car windshields are also laminated. When the tempered glass shatters it will stick to a stretchy substance and act like a net. Kinda like how softer steel is used to reinforce hard and brittle concrete.

The clear ruler and triangle was a great example of internal stresses. I am taking a strength of materials course at my university right now. It was difficult to understand internal stresses and the concept did not make sense to me.

Not sure if someone mentioned but windshields are made of laminated glass (1 piece of plastic sandwiched between 2 thin pieces of glass). This is important because of several factors, for example, if a rock or large object hit your windshield it won’t got through. Second the crack are lines so you can still see and drive. The temperate glass are used on side windows, that is why on smash and grab you will find a thousand piece of glass. On a car accident it allows the windows to be broken so you can be removed and also prevent sharp glass from hitting you.

The Slow Mo Guys did a video on crack propagation in tempered glass. They went to 800,000 frame per second to get it. That's nearly 2 days playback at normal speed for 5 seconds of filming. It's insanely fast how the cracks move through the glass as the pressures relieve.

sweet video dude

Glass breakers generally work pretty well as long as the pointy bit is considerably harder than the glass. The ones you find in a bus or whatever are heavy and have a tungsten slug and tip.
I volunteer in the rural fire fighters and we attend nearby accidents modern cars are so good you have to have a serious impact before the doors will not open but we have to use the breaker sometimes. The proper rescue guys have hydraulic jawed tools and stuff to force doors open and ignore the windows but we generally don’t.
I suspect a lot of those “glass breakers” are brought as weapons in places where you can’t have a weapon in the car but a proper one would also be a fair bit more dangerous to have swinging at you because it is sharp and very dense

I remember when I found on the street a broken game toy and I was able to take the screen apart. It had two transparent plastic pieces and I was astonished when I turned the two plastic pieces and it became completely black! 😯

Try having a monitor screen all white while in a dark room, have a pair of polarising lenses so you can see either the screen lit up or go dark, turn the lenses so it's dark, then grab a full clear water bottle and look at it through the lense. It looks amazing, looks like it's completely self luminescent, it'll look lot up and maybe you'll see other colours too

Plzz make a video about electron
Distribution in atoms quantum models

I've noticed those spots before and realized they were caused by polarization, but I couldn't search exactly why... And finally here it is!

The glass will only break if there’s a difference in preasure.
But as shown in Myth Busters, a car that goes under water is actually flooded and you can’t open the doors or lower the windows because of the outside pressure jamming them shut. However the pressure won’t be enough to shatter the glass.
The security feature is more about car collisions where you won’t suffer the death of a thousand cuts.

The sky can become kinda funky with polarized sunglasses too. I have noticed that if I look away from the sun ( north at noon in the northern hemisphere ) I can make the blue of the sky darken by rotating my glasses. The effect doesn't affect the look of the clouds so they pop out. Sometimes the effect doesn't happen and I have no clue why.
Not even sure why the side of the sky away from the sun seems to have some polarizing effect.

Speaking of the fascinating optical effects in car windows, perhaps you can make a video about the even more fascinating optical effects in rear view mirrors.

Haidinger's brush is crazy, it's something you can pretty much always see when you're staring at a computer screen, but unless someone tells you it exists, you probably never notice.