Can't wait for the final video! As always, your animations add so much clarity.
@berkekus7053 Жыл бұрын
Comment under steve mould for sale
@GooogleGoglee Жыл бұрын
❤
@didodido883 Жыл бұрын
They do.
@d.mort. Жыл бұрын
Hey Steve, Dave here. I think a wonderful follow up to this video would be about why the polarizers in this video are in the wrong direction and the reasons behind the common misconception. I am an electrical engineer with a passion for light, I would be happy to collaborate!
@gregorywitcher5618 Жыл бұрын
*helically twisted* clarity, my favorite.
@Epiminide Жыл бұрын
Fun fact: Measuring the angle between the two filters can provide an estimation of the amount of sugar in the solution. This trick is applied to precisely evaluate the amount of sugar in wine grapes and must. These animations are awesome!
@seth094978 Жыл бұрын
Is that the brix percentage?
@Epiminide Жыл бұрын
@@seth094978 I think Brix measurement is based on refraction properties rather than polarization. But I am far from being an expert in this field.. Let's wait if someone can clarify this point..
@rafael_l0321 Жыл бұрын
@@seth094978 He is refering to a polarimeter, which uses a specific light frequency (to avoid the phenomenon shown in the video). As far as I know, °Brix (degrees, not %) is usually measured with a refractometer, but you can convert the concentration measured with a polarimeter to °Brix
@ricgreen1 Жыл бұрын
Could we use this technique create a non invasive glucose monitor for diabetics?
@amruthchangappa Жыл бұрын
@@ricgreen1 I don't think so, you would still need a blood sample for the polarimeter, and blood has many other substances in it that would prevent this from working.
@cdenn016 Жыл бұрын
I've studied light/matter interactions for 20 years, published papers and such, and had never seen this before. I was pleasantly surprised! I wouldn't have thought you'd see light via the side. How great The more you learn the more you realize you know next to NOTHING
@glenfoxh Жыл бұрын
Gene Simmons from Kiss said next to the same thing about women. The more you think you know about women, the less you really know. And that is one guy, who has likely been with a lot of different women in his life.
@91722854 Жыл бұрын
do you mind sharing what your research is in and your link on google scholar? I do research in optics
@paveltroev8221 Жыл бұрын
the lamp is set off the axis
@Eric-xh9ee Жыл бұрын
I did research in optics. This should be obvious to you if this was your profession.
@quinnphys Жыл бұрын
Hey folks, Quinn here. Lots of people have been asking how they can make this demo themselves, so here’s how I built it: Materials: ⁃ Table sugar (sucrose) ⁃ Water ⁃ A glass tube that you can fill and seal, although it would be cool to experiment with different materials for the tube, since different material = different index of refraction. More on this in part 3 of the video. The tube should be long enough so that you can actually see the effect from the sides - our tube is 1 meter long, but you’d probably be able to see the effect with a ~0.5m tube. You also might want to make sure the tube is easy to open so you can clean it. See “Things to consider” for more. For the mini-demo, I just used a drinking glass! [FYI, the tube in this demo was custom-made for the MIT Physics Department. I’m not sure exactly where it came from or what type of glass it is exactly…] ⁃ A source of white, unpolarized light. We used a Dedo lamp, and if you make the demo as big as we did, you need a pretty powerful light source. For the mini-demo, I used my phone’s flashlight! ⁃ Two linear polarizing filters. You can get ‘em online pretty easily! Directions: ⁃ For our demo, we made a sugar solution of 300g of sugar per 400g of water. So, you should measure the volume of your tube and scale this ratio accordingly. ⁃ Boil the water and mix in the sugar until it’s dissolved. ⁃ Let the solution cool, then fill the tube with solution. Close up the tube. ⁃ Place the light source so it’s shining down the length of the tube, then place a filter between the light and the tube. ⁃ Place the other filter at the end of the tube. ⁃ Voila! You can rotate the first filter to see the whole spiral move up and down the tube, or you can rotate the last filter to see the color coming out of the end of the tube (and through the last filter) change. Things to consider: ⁃ You really want the tube to be clean before you start, since the solution can get moldy. If you look up close, you’ll actually see little floating things in the solution - those are some bacterial friends :) ⁃ We try to replace the sugar solution frequently so that the demo is clearer. ⁃ The shorter the tube is, the more concentrated you want the sugar solution to be in order to see a similar effect. ⁃ The amount of rotation of the polarization angle is proportional to the concentration of the solution (this is called the specific rotation!) ⁃ The light might get hot the longer you keep it on, so be careful! As always, observe sensible safety procedures. ⁃ You could do this with different sugars! Glucose would also rotate light to the right, but slightly less than sucrose. Fructose rotates light to the left! If you recreate this/do something else cool with it, I’d love to see!
@Pranshu_Agrawal Жыл бұрын
Only 47 Likes and no replies? Thanks for this and for taking the time to build this!
@kredibled Жыл бұрын
It’s likely borosilicate glass, most scientific glass is. You’re likely able to find a local glass blower who could make the fillable tube but the caps might require some thought. Could just superglue a small glass plate to the ends 🤔
@Arc125 Жыл бұрын
Ordered filters to try this at home!
@R23874 Жыл бұрын
Quinn, thank you so much for what you've built here. I greatly enjoyed this video, and it has rekindled my interest in studying optics.
@Crushnaut Жыл бұрын
Is LED light on your phone actually white light? When you split it, do you end up with the three specific wavelengths of light corresponding to wavelengths from each LED making up the white light? Either way, I think that would be a cool follow up to this. Use different light sources and see the effect. If you did use three wavelengths (rgb), how sharp would the drop from one colour to the next be? Would you get twisted lines around the tube for each colour or would there be areas dominated by each colour with gradient transitions?
@PowerhouseCell Жыл бұрын
Love to see Grant branching out. He's truly made an impact on all online education, not just math! ❤
@hanknew9685 Жыл бұрын
Omg yes this is getting into chemistry and enantiomers! Super excited to hear the math behind this
@TheNameOfJesus Жыл бұрын
The universe is made with complex math, so his expertise will be amazing if he breaks into physics and similar subjects.
@theodorekim2148 Жыл бұрын
@PowerhouseCell Wait you're the guy who makes biology videos with Manim! Love your channel!
@arvinderbali Жыл бұрын
Basically, maths is behind all, so u understand math, u understand all.
@TheNameOfJesus Жыл бұрын
@@arvinderbali Maybe, but "maths" has been proven by Godel to be "incomplete" and therefore it seems unlikely that the universe is "incomplete." So there must be more to the universe than "maths."
@Nighthawkinlight Жыл бұрын
What a beautiful demo setup!
@pierrefrebet5630 Жыл бұрын
Hello @Nighthawkinlight ! Love your channel !
@3blue1brown Жыл бұрын
Part 2 is available now: kzbin.info/www/bejne/l4m1hZawdrOof9Usi=m6DgY1ogMrwTRrUP Some viewers have asked about how to make this demo for themselves, and Quinn kindly wrote up the description below. Materials: ⁃ Table sugar (sucrose) ⁃ Water ⁃ A glass tube that you can fill and seal, although it would be cool to experiment with different materials for the tube, since different material = different index of refraction. More on this in part 3 of the video. The tube should be long enough so that you can actually see the effect from the sides - our tube is 1 meter long, but you’d probably be able to see the effect with a ~0.5m tube. You also might want to make sure the tube is easy to open so you can clean it. See “Things to consider” for more. For the mini-demo, I just used a drinking glass! [FYI, the tube in this demo was custom-made for the MIT Physics Department. I’m not sure exactly where it came from or what type of glass it is exactly…] ⁃ A source of white, unpolarized light. We used a Dedo lamp, and if you make the demo as big as we did, you need a pretty powerful light source. For the mini-demo, I used my phone’s flashlight! ⁃ Two linear polarizing filters. You can get ‘em online pretty easily! Directions: ⁃ For our demo, we made a sugar solution of 300g of sugar per 400g of water. So, you should measure the volume of your tube and scale this ratio accordingly. ⁃ Boil the water and mix in the sugar until it’s dissolved. ⁃ Let the solution cool, then fill the tube with solution. Close up the tube. ⁃ Place the light source so it’s shining down the length of the tube, then place a filter between the light and the tube. ⁃ Place the other filter at the end of the tube. ⁃ Voila! You can rotate the first filter to see the whole spiral move up and down the tube, or you can rotate the last filter to see the color coming out of the end of the tube change. Things to consider: ⁃ You really want the tube to be clean before you start, since the solution can get moldy. If you look up close, you’ll actually see little floating things in the solution - those are some bacterial friends :) ⁃ We try to replace the sugar solution frequently so that the demo is clearer. ⁃ The shorter the tube is, the more concentrated you want the sugar solution to be in order to see a similar effect. ⁃ The amount of rotation of the polarization angle is proportional to the concentration of the solution (this is called the specific rotation!) ⁃ The light might get hot the longer you keep it on, so be careful! As always, observe sensible safety procedures. ⁃ You could do this with different sugars! Glucose would also rotate light to the right, but slightly less than sucrose. Fructose rotates light to the left!
@GooogleGoglee Жыл бұрын
❤
@richardsmith3021 Жыл бұрын
You should pin this.
@d.mort. Жыл бұрын
Hey there, I have a fundamental correction to the visuals in this video. The polarizing filters are oriented incorrectly. When the polarizer is vertical, it will transmit horizontal and reflect vertical. It’s a common misconception, if you would like to hear more I would be happy to share! (I am an electrical engineer with a passion for light haha) PS these are some amazing quality videos!
@MatthiasBussonnier Жыл бұрын
+1 to this, it's hard to test with visible light polarizers, but you can find educational material that does it with ~10cm wavelength. The idea is that the electrons can move in the direction of the line filter can move sufficiently along this direction that the dissipate the energy of the light polarized in the same direction right ?
@GooogleGoglee Жыл бұрын
@@MatthiasBussonnier but please, fix your English first, I am not understanding what you are asking exactly
@tachoblade2071 Жыл бұрын
This is like being at the center of the research table of grant, listening to the ideas and just absolutely loving your time learning. This is exactly what college/higher education needs to be, collaborative on a world level. Ofcourse, i am only a viewer and not a collaborator, but it just feels insanely amazing to be able to listen to this information
@TheArizus Жыл бұрын
I 100% agree. As someone who's experienced maths olympiad camps my favourite part is the collaboration.
@imad8903 Жыл бұрын
me too @@TheArizus
@itishappy Жыл бұрын
I'm an optical engineer. I have solid intuitions about light. I still said "what?!" out-loud involuntarily when the lights dropped the first time. What an amazing video!
@Serizon_ Жыл бұрын
it truly is an amazing video
@KeithSmith42 Жыл бұрын
Any chance this will replace separate RGB diodes someday?
@KeithSmith42 Жыл бұрын
@userJohnSmith So before RGB pixels were single tubes that used a filter to output the desired wavelength? I thought diodes replaced electron gun-based CRT screens
@KeithSmith42 Жыл бұрын
@userJohnSmith I think you’re missing my point. I’m saying using a tube and filter to select a single desired wavelength of light would be more efficient than current pixels that use three color RGB diode array and mixing them. Lots of work to get from the example in this video to current pixel size and density tho. Everything I’ve looked up about current and prior methods for generating images use separate red, green and blue channels to mix the desired color.
@KeithSmith42 Жыл бұрын
@userJohnSmith I understand that we have cone cells in our eyes that are sensitive to different wavelengths of light roughly corresponding to red, green, and blue but they're saying in this video that the colors are even richer than when relayed through the camera and screens to the other participants in the video call via RGB signals.
@ManuelBTC21 Жыл бұрын
A landmark in science communication. Thank you and congratulations.
@z0nx Жыл бұрын
Just some lads making videos.......................................................................................................................... !
@neiljudell1437 Жыл бұрын
I first saw this in 1973, in Walter Lewin's class on vibrations & waves at MIT. Damn, he was a great lecturer.
@krissp8712 Жыл бұрын
True, and yet as great as he was, Lewin still turned out to be misusing his role like a creep in the end.
@أحمدالدسوقي-ت9س Жыл бұрын
Lewin is the best❤❤
@lesconrads Жыл бұрын
The visualisations is on another level. I am incredibly impressed by how you can create these moving 3D animations to show super complicated concepts.
@rex-up9ln Жыл бұрын
Im a chemist. the dependence of angle of polarization by a chiral molecule on frequency of light is a very useful phenomenon which gives rise to cotton effect. Different molecules and even parts of a molecule have a different signature and thus the plot of angular dispersion vs. freq can help identify a molecule and functional or structural motifs. See Circular Dichorism spectroscopy
@ENCHANTMEN_ Жыл бұрын
How does the chirality cause the twisting even though the molecules might be in any orientation? My intuition would be ones facing the opposite direction cause it to twist the opposite way, but clearly that's not the case here
@tomc.5704 Жыл бұрын
@@ENCHANTMEN_ I'd love to know too -- I don't have the intuition for this at all. I'm trying to use my hands to represent chirality / circular polarization, with my thumbs representing the direction of travel and the curl of my fingers as the twist. It seems to make sense -- if you had an equal number of left hand and right hand chiral sugars (represented as both right and left hands with the thumbs pointing in the same direction) then the twist would cancel out. But it's also really easy to get the direction of twist to cancel out with one hand. Just turn your thumb to point the other direction. So what's different about pointing your hand in the opposite direction, and light hitting the sugar molecule from a different angle (ie the opposite side)?
@MarkFord-k4z Жыл бұрын
@@ENCHANTMEN_ The light does not just interact with a single molecule, so you can consider an average of all the molecules that the light interacts with being equivalent to averaging one molecule over all orientations. A chiral molecule averaged over all orientations cannot be superimposed a similar average for the other enantiomer - essentially the average is still chiral. Plane polarised light can be equivalently described as a balanced sum of right and left helically polarised light. The sample will interact differently with right and left helically (circularly) polarised light, which leads to the twist in the polarisation plane.
@2Sor2Fig Жыл бұрын
I remember learning about chirality in Chemistry 201. Most of the time I'm mostly along for the ride, but today it did feel intuitive. Learning from you has completely changed my view of mathematics, and I thank you for that.
@iainmackenzieUK Жыл бұрын
I am a British Physics teacher working in China. I really appreciate the questions you ask and how you ask them/ explore ways of answering. gets to the core of what we are trying to encourage in our students. Great work
@Ninjaeule97 Жыл бұрын
What made you move to China and work there?
@李某-c6h Жыл бұрын
I just learned about optical isomerism in A-level chemistry, and I'm not sure if it's related to this video.
@iainmackenzieUK Жыл бұрын
@@Ninjaeule97 The question really is "why would I ever move back?" :) Lovely students, interesting culture, many varied daily challenges, the money is pretty good.
@iainmackenzieUK Жыл бұрын
@@李某-c6h from what I recall of my chem I think it is very much linked...
@Ninjaeule97 Жыл бұрын
@@iainmackenzieUK Glad that you enjoy your life there. I just haven't heared of many westerns move to Asia and choose China instead of one of the more democratic (and wealthier) countries in that region. So I had to ask.
@sainadh7 Жыл бұрын
Beautiful experiment. As someone who worked in spectroscopy with chiral molecules, I must say this is a must demonstration in graduate classrooms. The experiment has refravtive index, polarisations, optical rotation due to chiral molecules, all playing their role simultaneously.
@bandana_girl6507 Жыл бұрын
Having played around with a lot of polarizing filters and looked through a ton of information about how it works with scattering, I have built up an intuition, and I am really excited to see how you make it easier to understand.
@primenumberbuster404 Жыл бұрын
Steve Mould and Grant Sanderson has the best therapy voice of all time. ;)
@claaaaams Жыл бұрын
This is such a great video with the way it's setting up other discussions. Thank you for making physics accessible!!!
@abraxas2658 Жыл бұрын
The way you mentioned the answers without explicitly stating the methods really jogged my brain in an exciting way. Being able to think about twisting polarized light and angles of refraction together really gave me an AHA moment that saying "polarized light twisted at a sufficient angle from a surface would experience total internal reflection" just wouldn't have provided
@Taxodium-d2j Жыл бұрын
Grant is trying something new, adding a bit of physics experiments to the recipe! Glad to see that the channel is looking towards a bit of variety. Not that the usual maths animations were bad, they were exceptional as ever, but this is great to exploit the viz towards more intertwined maths and physics, I love it. Keep it up, Grant!
@pamaramb Жыл бұрын
I insist. This guy deserves the Nobel Prize in Education. And given that it doesn't exist, he also deserves it to be created.
@ricardopinho630 Жыл бұрын
every video of this guy is a phd paper
@astroboy011028 күн бұрын
So true 😅
@ntq1ty8 ай бұрын
I love how attentive and interested the cat is that's watching the home experiment at 6:45 😻
@TheArizus Жыл бұрын
A day with a 3blue1brown video is always great but a day with 2 uploads is exceptional!
@rjkirkland8659 Жыл бұрын
This is better than Christmas...I love these very tangible, available examples of the complexity in the world and how it leads to fascinating experiences.
@davekwcc Жыл бұрын
You have such a gift at explaining complicated subjects in interesting and engaging ways. Thanks for another excellent video!
@zach4505 Жыл бұрын
So humble. Grant refers to the beautifully illustrated and insightful animations as mere cartoons
@Roanmonster Жыл бұрын
I am very much using this video in my classes, and my heart jumped a little when I saw you could do the demo yourself! We are adding optics back into our curriculum (highschool physics) and this will be so interesting to see
@dubscheckum8246 Жыл бұрын
This is way beyond any highschool or AP course
@ltmcolen Жыл бұрын
You have a gift and I am so grateful to watch this without paying you any money.
@TeaDrinkingGuy Жыл бұрын
I have never seen this phenomenon before, which is a surprise because I love Steve’s videos. What a beautiful phenomenon that’s quite easy to replicate! Seeing this in science class as a kid would have seemed like magic.
@PhysicswithElliot Жыл бұрын
My jaw dropped when the spiral rainbow appeared. So freakin cool!
@dmaster2542 ай бұрын
I'm at 2:04 right now in the video. prediction: the rainbow effect is a result of the sugar twisting light at different rates depending on the wavelength and then some escapes out the side after
@joelluth6384 Жыл бұрын
As always, your visualizations are beautiful in their elegance and simplicity, and really help to explain the concepts. Well done.
@Inspirator_AG112 Жыл бұрын
This is the first physics video I have seen from this channel.
@avoirdupois1 Жыл бұрын
What a fabulous demo. I would have loved to see this kind of display when I was taking college physics. The coordination between the rotation angle of the polarization, the brightness of the output color, all coordinated. Brilliant. This reminded me strongly of Feyneman's book, QED. Thanks Grant!
@aryasaktiflister_aw Жыл бұрын
I came to this video as someone who only vaguely remembers some HS optical physics so I didn't expect to be too intrigued. Instead, that animation and explanation moved mo to the verge of tears. So beautiful and curiosity-enabling
@shayantan243 Жыл бұрын
Sometimes, I wish I could just stay with Grant. I could do all his household chores, any work he would ask for and in return I would just learn from him, ponder about various questions in the universe, that's it and I'm just a happy man in this lifetime.....
@gradientO Жыл бұрын
3b1b physics videos are a delight to see
@marcusklaas4088 Жыл бұрын
I love your videos so much.
@HomieSeal Жыл бұрын
Oh nice, glad to see a new 3B1B video!
@ZbyszekJot Жыл бұрын
Man, you deserve a Nobel just fot those animations!
@160p2GHz Жыл бұрын
As a polarimetrist-- this is so great! I'm so exited for these videos. You and Steve Mould are my favourite STEM communicators (and not just because you have both covered polarization multiple times). So exited for this series (And thanks to Quinn for coming up with this!)
@brendanfan32453 күн бұрын
Best physics and math channel with deep understanding.
@taiconan8857 Жыл бұрын
QUINN BRODSKY DESERVES MAJOR PROPS! *What* an idea and solid execution of said demo! We likely wouldn't have had this video *without* her perspective. Thank you for returning to this in *force* 3B1B! And including Steve Mould was just icing on the cake~ 💎
@Kitastroboy Жыл бұрын
These animations and narration are sublime.
@logenninefinger3420 Жыл бұрын
Very nice topic! When Math meets Physics, things get interesting :)
@kruksog Жыл бұрын
I love this gathering of a couple of my very favorite KZbinrs.
@matheusrossetto5091 Жыл бұрын
I saw this video as one of the great documents some immense scientist from the 19th century left as his legacy. What youre doing is just incredible, a friend of mine and I literally chose our graduation courses (Mathematics for him, Mech. Eng. for me), greatly thanks to your influence during our high school. Thank you for your ridiculously amazing work!
@aritradhar1271 Жыл бұрын
the visualizations add so much depth to the explanations, actually awesome stuff.
@gallium-gonzollium Жыл бұрын
My feeling for question 3 could be due to the tube acting like a prism, scattering different light at slightly different directions, magnified by the lens effect of the cylindrical tube.
@kyoto9916 Жыл бұрын
This concept is pretty simple and just another beautiful display of the properties of the universe unfolding through our ideas for setups.
@worldhaseverything Жыл бұрын
Thanks for lighting me to this new knowledge.
@philipbutler Жыл бұрын
how you ambushed him with the question was perfect👌🏽
@ManishaPatel-sl8dp Жыл бұрын
This is a phenomenon occurring due to optical activity of sugar. Known as optical isomerism. If a compound is optically active , it will bend light to a certain degree. I don’t know why this wasn’t mentioned in the video.
@CoverBydAn Жыл бұрын
Love that steve just said no, he didnt think of the side view, rather than being defensive. And the 3b1b dude is really good looking! Probably because i already like him since he’s such a great communicator
@Erosis Жыл бұрын
Holy mother of god this is great! Optics was one of my weakest subjects in physics. It felt like a lot of it was just "this is how it is." I'm so excited to follow this series. I feel embarrassed, though, that as someone with a degree in chemistry that I didn't even consider the chirality of the sugar. I've used polarimeters in lab! Duh!
@AlphaPhoenixChannel Жыл бұрын
yup - i'm hooked. I was torn between some kind of stress-in-the-glass-polarization, something having to do with polarization dependent reflection, and a vague un-thought-out concept of polarized scattering like the dark band 90 degrees from the sun... sounds like it's the third and i should think harder! can't wait to see the rest. In retrospect those first two don't work at all because the polarized twisting light is only traveling axially... until it scatters... hmmm...
@AlphaPhoenixChannel Жыл бұрын
oh shoot wait both parts out at once??? sweet
@lotofAlexa1221 Жыл бұрын
Quantum physics lets go
@geekjokes8458 Жыл бұрын
well, ultimately it should be explained by quantum mechanics but i think classical EM would be able to solve this or maybe it's necessary for the 3rd question, idk
@dilation1057 Жыл бұрын
I don’t think quantum mechanics is REALLY required at a deep level most concepts such as chirality, refraction and polarisation can generally can be solved using the wave theory of light but for the third question i really doubt only optics can help. Overall speaking this problem really does some need of quantum mechanics.
@iddomargalit-friedman3897 Жыл бұрын
I think classical EM is probably enough here
@shrill8239 Жыл бұрын
@@geekjokes8458I am thinking it much more related to the optical properties of the material in consideration.... idk too?😅
@stevenfallinge7149 Жыл бұрын
Not everything is quantum magic/woo/mystery or blah blah blah.* Too many people think "quantum" and start thinking like it's magic instead of actual science. *(of course, technically everything is quantum, a detail many also miss)
@fultzjap Жыл бұрын
This is the best KZbin video I've seen in years. You REALLY nailed this
@julianwalford Жыл бұрын
Wow! I’ve loved your videos for quite some time, @3blue1brown, but I’ve never felt so excited as just now seeing this teaser. I did a PhD and postdoc in optics 20 years ago, in areas very close what you’ve shown here. This is the clearest and most beautiful video I’ve seen on this topic and I am already learning something I didn’t know before. Thank you so much for everything that you for maths and physics education around the globe!
@JTCF Жыл бұрын
We were told about refraction that changes the direction of light depending on its frequency... Now we're getting to twist! This is going to be so cool!
@AnExPor Жыл бұрын
Yahhhh! Don't always like a cliffhanger but in this case, it means more 3B1B videos. Can't wait!
@eldarr0uge482 Жыл бұрын
I've studied that at uni, went through all the calculations and stuff and conducted the experiment (as a matter of fact it was my optics lab exam) so I knew exactly what was going to happen but I got to say, the visuals and animations are breathtaking !
@tommyjs199211 ай бұрын
can i ask what type of light can someone make this with? im trying to replicate this and im missing this piece of information. Would a very brigth led light work?
@HeisenbergFam Жыл бұрын
Didnt expect to see Blue's upload right on the start of September, cant wait to see another next month or in 2 months..
@RubixB0y Жыл бұрын
Comes across kinda passive-aggressive when there hasn't even been enough time to watch the video before posting that comment. I appreciate every video whenever it comes out because he puts quality first.
@Coolbeans_1999 Жыл бұрын
I really liked how this not so intuitive phenomenon was broken down and explained a lot more clearly then I think other communicators would.
@d.mort. Жыл бұрын
I can’t find my old correction so I am reposting it here: Hey there, I have a fundamental correction to the visuals in this video. The polarizing filters are oriented incorrectly. When the polarizer is vertical, it will transmit horizontal and reflect vertical. It’s a common misconception, if you would like to hear more I would be happy to share! (I am an electrical engineer with a passion for light haha) PS these are some amazing quality videos! Edit 1 for clarification: An experiment I performed in undergrad involved a square with equally spaced vertical wires. We placed it between a transmitter and receiver (transmitting vertically polarized EM waves, maybe 3GHz but I don’t recall). When the wires aligned with the direction of polarization, the receiver signal dropped drastically and vice versa.
@TheGreatAtario Жыл бұрын
Isn't this just labeling the same thing with a different word?
@ghislainbugnicourt3709 Жыл бұрын
That's interesting ! A quick convincing argument is that when the electrical field oscillates along the stripes it induces currents so the light is reflected like on a metal. If a polarizer has an arrow, what's the convention then ? Should it show the orientation of stripes or the polarization you obtain ?
@d.mort. Жыл бұрын
The arrow is a good indicator. I would say a vertical arrow to denote the direction it allows to pass through, but the lines should be perpendicular to that arrow. An experiment I did in undergrad involved a square with equally spaced vertical wires. We placed it between a transmitter and receiver (transmitting vertically polarized EM waves, maybe 3GHz but I don’t recall). When the wires aligned with the direction of polarization, the receiver signal dropped drastically and vice versa.
@The_Canonical_Ensemble Жыл бұрын
Who said that the vertical lines on the polarizers represented the orientation of the wires?
@ghislainbugnicourt3709 Жыл бұрын
@@The_Canonical_Ensemble Well, that's how we perceived it at least. If I see a drawing of, say, a fence with vertical lines I'm not gonna guess that the physical planks they represent are horizontal.
@TesserId Жыл бұрын
Ooooooooh, the colors. No, seriously; it's really beautiful.
@stevepittman3770 Жыл бұрын
1:48 Ok, now I want a floor lamp filled with sugar water with a slowly rotating polarizing filter. Also I wonder what this would look like if you mirrored the far end so none of the light escapes out the top - would the light twist back to the original orientation and cancel out the apparent spiral of colors?
@andrewharrison8436 Жыл бұрын
Yes please! As to your question - interesting - it would obviously make things brighter! I think each colour could be regarded as a bolt thread with a different pitch. Then the mirror would send each colour back down the same thread. It would then reassemble to one polarisation at the lamp end.
@timp2751 Жыл бұрын
The light will continue to twist in the same direction (relative to direction of travel) so more likely to end up with a pattern of sort of rhombusy nature as the returning light and outbound light contribute different imbalanced spectra to what eventually makes it out of the side of the tube at any point
@BlueRaja Жыл бұрын
9:45 "Our brains do something to make rainbows more vibrant than they really are" - actually it's because RGB isn't able to accurately represent intense colors. Only something like a third of the full human-vision chromaticity diagram can be represented using RGB.
@DrDeuteron Жыл бұрын
0:18 Your linear polarizing filter has a little arrow (vector: direction, Y_(1, m )) showing the filter's alignment. It should be a double headed arrow b/c linear polarization is a tensor alignment (no direction, Y_(2, +/-2))
@Jacobk-g7r Жыл бұрын
7:30 The reason its changed from the side is because we see what is absorbing the light/where it has frictions and thats why we see the specific waves bouncing off. Like as it scatters to the sides it still is in the direction of one way because its like a cone of light exiting the sides at different wavelengths but if you stand in front then youll see mostly white because majority is that way. The sugar and water make the light change, the change in frequencies keep each other in order like waves falling into troughs and lining up to where they match and then the light exiting the sides is always happening but our position is a factor when taking in the light and how much of each wavelength. The lens in is like one beginning so the change passing through is like majority the same and so the spin is the change and it only looks like a spin because the container and the exiting of light and the direction of change.
@cactuskiller3558 Жыл бұрын
Like for "Essence of topology"
@cameronclarke4062 Жыл бұрын
I did a presentation on this last term form my final physics project. There was not a whole lot of information online so it was very fun to figure out! Great job explaining it. I also didn’t think to look at the side of the tube when preforming the experiment.
@d.lawrencemiller5755 Жыл бұрын
I was guessing that the curvature of the pipe has something to do with the diagonal stripes. I was wondering if it would look different in a square tube. Looking forward to understanding the rest of this video series so I can make a hypothesis about what a square tube full of syrup would look like
@memetb5796 Жыл бұрын
This video is amazing. I love your videos in general, but this is the most amazingest you've done, imo.
@bryanchaves5691 Жыл бұрын
Great content. Keep up the insane work 😊
@Dudleymiddleton Жыл бұрын
What do you mean "Insane"? Do you actually know what that fucking word means? I am sick to the teeth of seeing and hearing it everywhere. Mental illness is a very serious subject and this is extremely offensive.
@aSpyIntheHaus Жыл бұрын
Holy Moley! This has Dunning Krueger'd me (You don't know, what you didn't know but we're confident that what you knew was sufficient until you learn something new) in such a wonderful way.
@PhilBoswell Жыл бұрын
Subtitle nitpick at 6:04: s/weekly/weakly/ Very much looking forward to the next video 👍
@theangledsaxon6765 Жыл бұрын
This is the clearest polarization demo I’ve ever seen
@pythonboi5816 Жыл бұрын
Guys look a multi colored LED
@tricanico Жыл бұрын
classic 1000% likes to views ratio right now
@fatrabbit9120 Жыл бұрын
Thanks!
@aozorakei5288 Жыл бұрын
First
@natigrinkrug Жыл бұрын
The crossover we never knew we needed, but the one we deserve
@phyphor Жыл бұрын
Watching this and I was just waiting to chip in about the Steve Mould video and, of course, you not only know of it, or give it a shout out, but you speak to the man himself. Really nice work, as always!
@marcelofalcaodeoliveira4022 Жыл бұрын
Impressive experiment! So simple and so deep in knowledge! Mind blowing! Congratulations for the videos!
@marvin.marciano Жыл бұрын
This is just beautiful. Completely blew my mind. Greetings from Brazil.
@priyanshshrivastava8842 Жыл бұрын
such a joy that this dropped when i am studying about optical activity in my chemistry lectures.
@joyboricua3721 Жыл бұрын
It's beautiful It's like a physical model of complex integration.
@BradenDiaz-p8y Жыл бұрын
Thanks it's amazing to see a live full visible light spectrum . A landmark in science communication. Thank you and congratulations..
@Kazner0h Жыл бұрын
Educational youtube is so enriching. I'm so grateful for this content.
@Apes-With-Computers Жыл бұрын
Great video, Grant! This is a really interesting topic. I loved Steve Mould's introduction of this phenomenon. Quinn Brodsky did a fantastic job with that setup! I love the mesh of the visceral demo and your animations. I can't wait to watch all of your videos on this!
@borisbukalov9407 Жыл бұрын
Awesome! I didn't know you make physics videos. This is as good as your math videos! Keep up the great work!
@abiuniverse Жыл бұрын
I love this channel more than anything.
@GabrielPettier Жыл бұрын
2:41 i half expected the colors in the tube to also move when moving the *other* filter, and i'm relieved, things are not yet incredibly weird, just, normal quantum weird.
@fluiditynz Жыл бұрын
That's pretty cool. took me just past half way, I paused for some seconds and the rest of it was confirmations but explained so much better than I could.
@CYI3ERPUNK Жыл бұрын
beautiful and fascinating ; well done ; looking forward to the rest of this indeed
@Toxodos Жыл бұрын
in the subtitles it says "coloours which end up more perpendicular to the filter, pass through only very weekly" and I'd like to thank you for taking all this time to do this experiment