Expansion would cause convexity and your finger-heat caused a curvature that goes against the rest of the pattern, so the rest of the surface is concave. I see a wide area of constructive interference on the left of the image, so this would mean an area of less slope in reference to the flat surface. That would mean answer A. (As it is concave and a 'flatter' area relative to the flat surface is on the left) Love the video. :)
@HuygensOptics
Жыл бұрын
We have a winner!
@Gwallacec2
Жыл бұрын
I was thinking it was D as I was thinking the opposite of you.
@michalnohawica721
Жыл бұрын
in situations where the measured curvature is so small that few or even no lines are visible. When heated enough, the interference pattern inside the convexity caused by an expanding heated spot would always create a continuous loop of a fringe which has a thicker belly facing down the slope if the surrounding surface is concave, as the surface facing up the slope would have a change in the gradient from horizontal in relation to the rest of the surface in cross section, while the surface facing down the slope would appear continuous. This would also make the loops of fringes appear to generate off centre from the heated spot towards the higher side.
@kochipj
Жыл бұрын
Good explanation. I imagine the fringes as height lines of a sphere with a decentered vertex due to the tilt. That's how I can rule out B) and C). The extra info comes from the convex thermal expansion. Digital interferometers usually use phase shifting to determine the correct sign of the surface.
@kochipj
Жыл бұрын
BTW a good analogy is cutting an onion far from the center which yields a similar pattern to the interference of a plane and a spherical wave because of the constant shell thickness.
@hapskie
Жыл бұрын
I watch a lot (too much) of YT, but for some reason whenever this channel has new content I get most exited. It's all just so fascinating.
@sambos2212
Жыл бұрын
Same! Honestly optics was the only section of physics I enjoyed when I took it, so this channel is my little guilty pleasure to binge watch every once in awhile😂 it’s a nice break from the other fast paced stuff I watch
@ehsnils
Жыл бұрын
I do like this channel for the reason that the content when it comes is well done and not part of the daily information flood. Quality over quantity. Another similar channel is Brainiac75, and I also like the LockPickingLawyer where you'd almost can see the quality of the lock picked featured by the length of the video. But I think that Google has considered that quantity is more important than quality. Project Farm and Mustie1 are channels with weekly content, which is a decent frequency for regular, much like the weekly magazines that used to exist. And for those that don't mind a bit colorful language then AvE is a channel with high and low parts of a lot of hands on stuff. So there are a number of channels there with pretty good quality content. I do a few videos myself at random intervals, and I try to make stuff that do show things that might interest at least someone.
@markrix
Жыл бұрын
Nailed it!
@waelfadlallah8939
Жыл бұрын
You can't be watching more than me
@Cannotoad1201
Жыл бұрын
Excited*
@seanmcmunn88
Жыл бұрын
What a great video! I've been working at Zygo for over two years now in our precision lens assembly division that focuses on telescopes. Love seeing these deep dives into the tools we use every day
@VeganSemihCyprus33
Жыл бұрын
The "elite" is exploiting you and want you docile and brainwashed 👉 The Connections (2021) [short documentary] 💖
@LorenzoCastoldi
Жыл бұрын
At my job, I used to work on a few interferometer test stands using similar instruments, so this was a bit nostalgic and it made for a nice refresher course. I appreciate the attention to detail at 16:39, where the reference flat is shown with a significant wedge. Although not explained in the voiceover, I'm sure this is intentional, not a video production glitch. The wedge is necessary because light will reflect off both sides of the optic-not just the reference surface, but the opposite surface too. The wedge puts this unwanted reflection out of alignment so it doesn't pick up in the interferogram.
@VeganSemihCyprus33
Жыл бұрын
The "elite" is exploiting you and want you docile and brainwashed 👉 The Connections (2021) [short documentary] 💖
@JonathanSteinert
Жыл бұрын
The tiny "bye bye" at the extreme end of the video caught me off guard. Thank you for explaining all these concepts so thoroughly and clearly. I enjoy all of your videos and happily await the next one.
@11zekim
Жыл бұрын
Fantastic video, thank you! The temperature coefficient of Zerodur's *refractive index* is two orders of magnitude greater than its thermal expansion coefficient, so in transmission (as here) the expansion effect is in fact negligible. You're seeing entirely the effect of dn/dT. As it happens, dn/dT is positive, so given your assertion about the sign, your winner will still get the right answer; but for the wrong reason.
@s0rc3
Жыл бұрын
Very interesting, what's the reason for that, my understanding was that thermal effects on refractive index were driven mostly by density changes which is related to the thermal expansion, maybe thats not correct here.
@VeganSemihCyprus33
Жыл бұрын
The "elite" is exploiting you and want you docile and brainwashed 👉 The Connections (2021) [short documentary] 💖
@Rom2Serge
Жыл бұрын
Hi it also felt extremely unlikely that with rise of temperature of temperature 0.5 - 2 Celsius Zerodur had expanded so gravely! (Too lazy to count) So you wanted to say that it was a refraction index that affected the light transmission in Zerodur ? But it was not the thermal expansion.
@mattwillis3219
Жыл бұрын
Nice Interferometer! Amazing visualisation of thermal lensing too :) a perfect way to get a sense of how important temperature control is for ultra-high performance optical systems. Cant wait to see more!
@mrtoastyman07
Жыл бұрын
Your channel is consistently well produced, informative, deliciously technical, yet reasonably approachable and absolutely fascinating. Thank you for your hard work putting these videos together, they are truely the work of a master. I can't wait to see you jam a real ccd in that thing!
@whirledpeas1182
Жыл бұрын
i never went to school, i have absolutely no idea what you are talking about 90% of the time, yet for some reason, i watch every single one of your videos without fail
@usopenplayer
9 күн бұрын
Be careful, I've been doing it for a few years, and I think I'm beginning to understand some of it. I can never go back.
@Drawliphant
Жыл бұрын
The heat from your finger warping the lens blew my mind. Great video. I had a vague understanding of how this worked before but this was so easy to understand.
@douglasstrother6584
Жыл бұрын
I winced when he said, "Let's touch the surface."
@TheMaajanse
Жыл бұрын
I have been building many displacement and surface measuring (mainly Fizeau) interferometers over the last 25 years as wel as teaching. This presentation is the best introduction video I ever saw. Thanks for your great explanation: a must see for students!
@douginorlando6260
Жыл бұрын
I gotta say your practical knowledge & experience with optics and the equipment is the solid foundation needed to really understand the theory behind it. It gives you an intuitive edge over pure theoretical book learning as taught in universities. Thanks for another solid presentation
@JoseSilveira-newhandleforYT
Жыл бұрын
Thanks for this fascinating video! I've been interested in interferometers, since I first heard of the Michelson-Morley Experiment. Later, I worked on ambient air quality and stack gas monitoring and came across interferometry again, this time to measure individual gases in a sample or continuous flow.
@ShookieJay
Ай бұрын
I've been working at Zygo for almost 3 years now. Although I'm just a machine maintenance mechanic, I'm surrounded by this stuff every day, and it's very cool to see it in use "in the wild"
@Denyzyne
Жыл бұрын
Congratz on your new interferometer , you deserve it! , The content and perspective you provide is amazing! ✨✨✨
@engineerncook6138
Жыл бұрын
Yet another clear and digestible explanation of complicated optical principles for the non-physicist. Bravo!!!
@TOXIN543
Жыл бұрын
The solution is A ! warming the spot increases the thickness between the interfaces: 1. The fringe moves to the left, away from the region of higher thickness. So the thickness has to be higher at the right side (A or B). 2. The fringes incircle minima or maxima of thickness. So the left edge has to be a global maxima. Using the first conclusion it has to be a global minima, so the surface is concave (A or C).
@don_marcel
Жыл бұрын
New videos from @HuygensOptics are always the best part of my day
@purerhodium
Жыл бұрын
I think it's a testament to the sensitivity of interferometry that the distortion due to temperature change from touching a piece of _Zerodur_ is so easily observed.
@michaelseitz8938
Жыл бұрын
Aaaah, this tickled the mind in just the right way 😊 Science is awesome, and your way to explain and visualise everything is excellent.
@alberthalbert1153
Жыл бұрын
I don't work in a field anywhere adjacent to optics or interferometry. However, your videos are so thorough and well-explained, I am able to follow what you're saying with just my the undergraduate physics education I got as part of my engineering degree. I don't know why it works so well but you method of delivery makes this extremely complex topic very interesting!
@shoitah
Жыл бұрын
Love your videos! (Can’t wait to see you finish the catadioptric lenses too)
@daantreurniet9747
Жыл бұрын
I just started a project related to phase-measurement interferometry this week, so the timing of his video could not be any better!
@theunseen010
Жыл бұрын
that collimating lens is a work of art
@NordicLab
Жыл бұрын
This type of channels and videos - one of the reasons why i'm still believe in youtube. It's just amazing information, thank you again for the video.
@nobbyslab
Жыл бұрын
Ladies and gentlemen, the Oscar for the most amazing scientific video 2023 goes to... Huygens Optics!
@willo7734
Жыл бұрын
This is one of my favorite channels on YT. Always happy when I see a new video come out!
@HenryKamp
Жыл бұрын
Your videos always leave me with a powerful sense of how much there is to learn. I can't wait to see these tests you tease us with!
@Pidrittel
Жыл бұрын
Finally a pure optics video again, very nice! Really looking forward to the follow ups! It is super interesting, how precise optical metrology is.
@liex7187
Жыл бұрын
Thank you for showing and explaining us insides of such great and rare instrument! Most of us have no chance to work with them by ourselves. In my experiments with interferometry for evaluating the surface roughness I was limited to use cheap laser diode, DSLR and UV photo filter as reference surface to get interferograms)) Working with high quality interferometer is just totally different level. Thank you!
@RyJones
Жыл бұрын
Need to get Tom Lipton and Robin Renzetti to see this!
@knickly
Жыл бұрын
And Spencer Webb!
@ronin6158
Жыл бұрын
one of those super high-qual channels. always a pleasure.
@johnburgess2084
Жыл бұрын
Thanks for this video. 50+ years ago I worked in a calibration lab using optical flats. In our case we were often calibrating the accuracy of working gauge blocks (device under test) compared to the reference gauge block. We would place them a known distance apart and bridge the 2 blocks with an optical flat. Using a monochromatic light (or course) we looked at the interference pattern and calculated the difference in length between the 2 gauge blocks. We also reported on the surface deviation of the block under test. Of course, being so long ago, I remember nothing of the calculations, only that the procedure was quite demanding, and accurate if done well! And by "calibration", I don't mean any adjustment was performed, only that we reported the precise length and surface characteristics of the block under test.
@harriehausenman8623
Жыл бұрын
I like how this video also tests the YT compression very nicely 😄
@cathoderay305
Жыл бұрын
I use an optical parallel and a monochromatic light to identify imperfections in a polished surface. Lines, some curved, indicate that the surface is not smooth and flat. It's simpler but it helps me understand the topic of your discussion. Thank you for posting.
@buildfromsketch8102
Жыл бұрын
What a remarkable video! Thank you so much for your explanation!
@raulkaap
Жыл бұрын
I work in a metal workshop and we have a lot of old precision measuring tools. In some of the kits there are these glass pucks that have an arrow on the side that points to one face and 0.2mkm written next to it. Can these be test glasses that were used to measure surface flatness?
@HuygensOptics
Жыл бұрын
I'm pretty sure they are. The arrow generally indicates the flattest side. If you clean then and put two on top of each other under fluorescent light you will probably see straight fringes.
@twestgard2
Жыл бұрын
I’m a carpenter and through have developed an interest in precise measurements. I really appreciate your clear descriptions of these natural phenomena and how the instruments are able to detect and display them. It’s , shall we say, unlikely that I’ll be cutting any boards with this level of precision, but I really enjoy knowing the outer limits of what’s possible with relatively common materials and relatively inexpensive instruments.
@nwuyiqiao
2 ай бұрын
Thank you for creating this highly educational video lecture!
@bansci
Жыл бұрын
I came to learn about optics but stayed until the very end and heard the sensual goodbye and now I'm more confused than ever. To be clear, the optics explanations were first class....
@svantesvantesson2816
Жыл бұрын
Respect for such a strong passion and congratulations on your new acquisition! The right answer is A. 1) The interval between the fringes decreases from left to right, which means that the thickness increases in the same direction => A or D = true. 2) A local increase in thickness leads to a shift of the fringe to the left => A or B = true. 1),2) => A is true. Incidentally, the following question arose. Where is the focus of the CCD1 sensor lens? It looks like the optical system must transform the flat front on the input of the interferometer into a flat front at CCD1? It doesn't form the optical image of the testing surface, right?
@HuygensOptics
Жыл бұрын
Yes A is correct. About the focus, this is realized with the lens in front of the camera. Standard it is sufficiently focused between 0.1 and 1 m ( I think). A correct interferogram can only be recorded if the surface under test is in focus on the ccd.
@svantesvantesson2816
Жыл бұрын
@@HuygensOptics Understood, thanks. Probably, stable interference occurs in any cross section of the overlapping beams, since the coherence length is quite large. But to see the surface, we must look at the surface)
@dimitaratanasov2856
Жыл бұрын
Dude...this is AWESOME! Amazing presentation
@Rom2Serge
Жыл бұрын
Im just wanted to say how much I appreciate this channel! Probably its my favorite channel on whole KZitem! Im saying it without any exaggeration! After I started studying cinematography in uni I just got obsessed with physics of light. Thank you!
@lordsqueak
Жыл бұрын
@22:00 ish It strikes me that the dust particles generating waves, is like throwing a pond at a pebble to observe the waves it make when hitting the pebble. wow! I'm guessing C - because the expansion of the glas when you put your finger on it, should mean that to get that bump, in that direction, it would have to be convex. And,,, then I guess it's C, because the interference line is fatter where the surface shifts the most. Not sure but I'll go with that. ;)
@trevormckay677
Жыл бұрын
New optics video, know its gunna be a good day
@0hellow797
Жыл бұрын
Awesome piece of tech! Thanks for sharing!!
@cdenn016
11 ай бұрын
Where was this channel when i was in grad school? Students have it so easy now (if they can find such good information in an ocean of garbage)!!!
@evanbasnaw
Жыл бұрын
This was the perfect video to follow your Coherence series.
@GermanMythbuster
Жыл бұрын
❤❤ Much Love, hope you never stop making videos ❤❤
@1x1johnny
Жыл бұрын
I love your videos! I am working now since 11 years in the field of experimental quantum optics, and I leaned something in every video of yours. Whenever you upload a video i tell my wife that i need to watch it and she needs to take care of the baby and that I am not available for lunch/dinner or whatsoever until i watched it! Maybe I remember this incorrectly, but shouldn't there be a part 3 of the mirror lenses series? Cheers
@HuygensOptics
Жыл бұрын
Yes, that is correct, I did not get to that. But now I have a good instrument so hopefully I 'll find tye time for it in the near future.
@1x1johnny
Жыл бұрын
Cool, looking forward to the next Videos... i actually dont care abou the topic :)
@matthewrberning
Жыл бұрын
Absolutely phenomenal, thank you so much for sharing! Your presentation style and the subjects you discuss are excellent.
@patrickmorse7549
Жыл бұрын
Very well done video! I appreciate the effort you put into the explinations and production quality!
@quibster
Жыл бұрын
What a great apparatus and while the resolution of that old camera is nothing remarkable, it still offers a massive amount of functionality as a tool. Incredible stuff thanks for showing
@cylosgarage
Жыл бұрын
Spectacular! You should retrofit it with some piezos to do PSI!!
@HuygensOptics
Жыл бұрын
That is certainly an option I would like to explore!
@jpurrazzella
Жыл бұрын
I could send you an extra zygo PZT housing but normally it plugs into the housing. You would have to build a driver to drive the piezos from 0-1000volts. @@HuygensOptics
@Splendoid
Жыл бұрын
Very informative video, thank you for sharing your knowledge.
@gabrielathero
Жыл бұрын
Very interesting and enlightening video! I'm using interferometry frequently when checking the flatness of lapped/polished surfaces of metallic sealing discs for industrial safety valves. Our setup is a lot more barebones though, with just a monochromatic lamp and the prisms.
@richardshagam8608
Жыл бұрын
Very nice video--contained the core of an 'introduction to optical testing' course. In my career, I never did have the opportunity to open a Zygo, so that was fun to see. By the way, the alignment system was the subject of a rather vicious patent suit between Zygo and Wyko--unfortunate, because we used that technique in graduate school long before either company used it in their commercial devices. (I'm kind of biased, though, because I was a grad student of JC Wyant.) Looking forward to subsequent videos!
@wearemany73
Жыл бұрын
Only a few minutes in and I’m enjoying the video. Thank you 😊 ❤
@Tobisama8
Жыл бұрын
Great video, I am SO excited for the next one!
@bertholtappels1081
Жыл бұрын
This video is an outstanding piece of reference material!
@gustavgnoettgen
Жыл бұрын
I dream of creating a laser measuring system for machining. Something based on interference, that's able to immediately measure fine structures in real time while machining. I'm certain that one or two lasers can achieve more than we know so far.
@rdramser
Жыл бұрын
Your content is so articulate and clear! Thank you for sharing your work.
@CraftMine1000
Жыл бұрын
Always a good day when I get a dose of optics theory from you, I barely understand some of the things but I find it extremely interesting nonetheless
@gustenisfeldt6976
Жыл бұрын
The glass gets thicker due to the higher temperature, and this region will be more convex. The original interference pattern shows opposite curvature of the disturbance, so the orginal surface must be concave. The line movement shows that the higher side is to the right, so the correct answer should be A.
@Jeremy-fl2xt
Жыл бұрын
I paused at 25:50 for this: Assuming your glass is BELOW body temperature (a probably reasonable, but not trivial assumption), the heat of your finger causes deviation in a material with a positive temperature coefficient indicates the surface is nominally concave. For clarity, the heat of your finger causes the glass to expand causing a deviation in the Z curve. That the deviation is opposite the general trend indicates the glass is concave (so A or C). That the curve is opposite the general trend of the curves points to C - if the curve were A, heating the middle would emphasize/exaggerate the curves. IFF (if, and only if) the lens is ABOVE your body temperature such that touching the lens cools (and shrinks) it, the B surface would be the best fit. That only the middle curve is influenced by touch is very interesting, but makes sense if the touch is not too long in time. That you touch your lenses with your fingers at all seems heretical, blasphemous, and deprecated! But thank you for sacrificing your lens(es) to educate us!
@donaldhobson8873
Жыл бұрын
A) The lines become closer together on the right. So the magnitude of the slope is greater on the right than on the left. (The sample is sloping up everywhere, unlike the diagram A, but whatever, the diagrams aren't to scale.) Thus A or D. What's more, when it expands in the middle, the lines get straighter and move to the left. The small amount of expansion seems to have totally compensated for the slight warping, at least in the place where it is hottest. If it was already convex, warming the middle would enhance the effect. So it's concave. Or was. But the slight thermal expansion made it a lot less concave. Thus A or C Combined, answer is A.
@virtualizeeverything
Жыл бұрын
I used it a lot to aline fixturing for polishing and machining.
@andrewmacfarlane2667
Жыл бұрын
Awesome work!
@key2010
Жыл бұрын
it always hurts seeing a new video, because I KNOW after almost 30 minutes I'll be left thinking "MORE!!!", and have to wait another prolonged time for the next video :(
@benjaminshropshire2900
11 ай бұрын
The art of engineering very accurate surfaces is really fun; part insane accuracy via very hard to build high tech tools and part insanely low tech "stick your finger on it to heat it up" kinda stuff.
@PCMcGee1
Жыл бұрын
I just wanted to say "thanks" for making such wonderfully informative content.
@Farathus
Жыл бұрын
Sometimes I miss working with White Light Interferometers... Then I remember what a pain it was to align the test surface well enough for the first fringes to show up.. Good times.
@GeoffryGifari
Жыл бұрын
it kind of makes sense that the components of a measuring instrument are built to higher precision than mass consumer product
@benterrell9139
Жыл бұрын
I remember (a long time ago) swimming front crawl against a slightly taller boy in a short course pool. Every tumble turn he got an advantage of twice the difference in height (assuming the difference in leg length was proportional to the difference in height). That must totally explain the difference in our speed.:-). Anyway, just thinking about the factor of two at 22.48
@HuygensOptics
Жыл бұрын
Your maximum speed is actually 1.34 x sqrt(body length). So yes, being longer helps, but I'm afraid it's not quadratic with the difference :-).
@derekokeeffe9919
Жыл бұрын
This is great. Really interesting. Thanks for posting and explaining so well
@sebaschtl9710
Жыл бұрын
i love to see your videos. thank you so mutch. there is no place to become such good information like you. thanks.
@BillyONeal
Жыл бұрын
JDS Uniphase, there's a blast from the past
@phcjs
Жыл бұрын
Congratulations for your GPI LC! "LC" in fact stands for "low cost" and that is true in your case because the TS that came with your Instrument is easily worth the money if it is in good condition. May your laser last long. I saw lifetimes between 2 and 20 Jears regardless of use.
@Brunoscaramuzzi
Жыл бұрын
Another awesome video about a subject that is not well explaned anywhere I know. Thanks
@markrix
Жыл бұрын
Anyone else say "ooooo" when this young lad releases a video?? Optics always are like magic, crazy photons all acting crazy,😂 please tell more 👍
@MultiHoweee
11 ай бұрын
Thank you very much for great video!
@EdPin_
Жыл бұрын
finger trick was awesome. So it was concave because expansion made it "grow" up and it became flatter, and it's a C because the lowest (right) part of the wedge seems to be the flattest
@jupa7166
Жыл бұрын
God, I'm glad that I subscribed to Your channel. Having nothing in common with this I was always fascinated by optical-kung-fu-black-magic, interferometry in particular, and now I roughly understand it. Thank You. Seeing this "camera" I instantly knew that it would be replaced with something much, much better. The rest is superb, so it was kind of obvious.
@rezganger
Жыл бұрын
tom lipton did a video on this years ago. very cool analog tech! (i didnt know this was basis of any digital imagery!)
@CristiNeagu
Жыл бұрын
Would like to see more lens making.
@bengodfrey6954
Жыл бұрын
my guess is A but i am a dumdum and have absolutely no mathematical proof. i just love your videos man.
@POPDELUSION
Жыл бұрын
I have no idea what you are talking about honestly but this was still pretty fascinating 😅
@hussainali9999
Жыл бұрын
Thank you for sharing
@moisesgarcia3287
Жыл бұрын
Thank you very much for yours videos there are super and full of knowledge and experience, I think that the right answer is D because the thermal expansion from the back side of the material tries to correct the center in the interferometer path. Have a nice weekend, Always the best.
@TheFlyingScotsmanTV
Жыл бұрын
excellent video. very understandable - I've learned something new!
@Hunter271828
Жыл бұрын
Your finger made the glass thicker at that spot and kind of "corrected" the bowing of that dark fringe line back to the left. This makes me think the thickness where you put your finger was too small which leaves A or C (it is concave, too low in the center). Traveling from right to left across the middle of the glass the finger made you reach the 3rd bright line sooner. So I think the thickness is increasing from right to left. So that would leave A, final answer!
@Luftbubblan
Жыл бұрын
Think ill give up the idea of making a lens haha. Nice video and nice equipment.
@ramous5182
Жыл бұрын
I'd say it's C, because touching it moves the fringes back where they should be if it was flat, and the positive coefficient of thermal expansion means that it has to get thicker to be flat, so it is concave. And because it getting thicker moves the fringes to the left, thats also the direction where the rest of the glass is thicker.
@HanstheTraffer
Жыл бұрын
I agree
@HanstheTraffer
Жыл бұрын
Ouch ...A
Жыл бұрын
Very informative. Thank you!
@cappie2000
Жыл бұрын
Love these vids.. I learn something new EVER.. SINGLE.. VIDEO :)
@TexSail
8 ай бұрын
Great video!! Thanks!!! 😎
@deviljelly3
Жыл бұрын
Really enjoyed this
@chicoroth8679
Жыл бұрын
brilliant, thank you!
@cambridgemart2075
Жыл бұрын
The HeNe is obviously a stabilised type, the wide body hints at that. There are a couple of ways this can be done, actively where the HR is positioned minutely via a servo or passively by stabilising the laser cavity temperature (and therefore the cavity length) which I expect is the method used in this device.
@cinderblock12345
7 ай бұрын
The HeNe inside these is not stabilized. Some of the other Zygo interferometers use stabilized HeNe's though
@asingleoat
Жыл бұрын
I concluded it was likely concave before the heat hint by noticing that the edges we're slightly rolled off (very unlikely to have a high edge). Since the fringes in the center are shifted in the same direction as the fringes at the very edge, the center must also be low, thus concave.
@asingleoat
Жыл бұрын
Knowing the the rolled edges shift the fringes to the right also let's us determine the overall wedge. Intuitively the fringe is shifted right at the edge because we don't need to go so far to the left to drop to the next fringe as we do in from the edge, thus the wedge is falling off towards the left, case A.
@HuygensOptics
Жыл бұрын
I guess if you are into ATM where turned down edges are a common phenomenon, finding out the shape wasn't really that hard.
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