Got 18/20. I chalk that up to spending years as a graphic designer. I'd like to see a similar study about which text was perfectly kerned, or by how many pixels an element was off-center or misaligned. I can spot that on billboards a block away, and my life is therefore a constantly grating experience.
Marginally related. I paint oils as a hobby, and my studio gets northern light, usually overcast and cloudy, during the day. Differentiating tiny color variations under those conditions is very easy, and in general your objective "pitch perfect" impression of color is also pretty accurate. However, I've painted in the same room at night under a "warm" LED bulb, and been absolutely shocked at how wrong and blue everything turned out when seen in the light of day. Not just that, but the hues I intended to be close to one another are much farther apart than they appeared under LED lighting.
So if lighting conditions can shift not just your perception of a color, but also its relationship to the ones around it, then I think how much more does your screen gamma and range alter that? A fair test would be printed on the exact same Heidelberg in 4 colors.
Regarding the LED lights: unless you use a lamp with CRI < 90, you see obvious, glaring color distortions, and some colors just "disappear", cannot be seen, because of the lack of a particular spectrum bands. Sadly, most inexpensive LED lamps have CRI around 80, and that light feeld definitely artificial, even if pleasant to the eye. A lamp with CRI 90 is okay, most things look natural, even though you can notice it's not sunlight. A lamp with CRI 95 is very fine, it's practically sunlight, and most tricky colors are visible well. I've never encountered a lamp with CRI, say, 97, but they exist and cost a lot.
Surely an incandescent bulb, being a black body radiator, has a CRI of 100? Yes, the temperature is low compared to sunlight, but the rendering is theoretically perfect.
I suppose if you want to get closer to sunlight, you need a carbon arc, which is only a few hundred degrees cooler and again, a perfect black body emitter.
Yeah, metamers are a trip and a bad LED bulb will really screw with the appearance of colors. If anything, screens are more consistent, but more limited.
I wish this had a "I can't tell" option. A few of the really hard ones I got right, but I'd say it was more of a lucky guess than a genuine ability to discriminate the difference.
The "blacklist" parameter prevents that you get the same challenge twice. Note also that it submits every answer to the server (fine imo, but I think it would be even nicer if this was mentioned on the page)
Happy to hear, though note the file is without l (lowercase L) in the end (I guess autocorrupt is to blame here?). Fun fact: if you remove the filename, it'll show you all the crap in that directory, listing this file as being last modified in 2015-09-27. If past performance is an indicator, it should be stable to use for the next ten years as well :D
This is from the creator of the ScienceClic YouTube channel [0]:
“As part of the next video, which will be out in a few weeks, l'd like to invite you to take part in an experiment about color perception. If you don't experience color blindness, l'd greatly appreciate it if you could take this test. Feel free to try it as many times as you like, think about it as a game!”
Towards the end the disk I was looking at would change color and become brighter than the others. I didn't notice until I focused on each one at a time and the "different" one became the one I was looking at.
17 out of 20. Was super easy until #10 and I had to stop and think more carefully (which was actually my first mistake), and then I got #14 and #15 wrong. The score was about what I expected, though - would've been surprised if it was <15 correct.
I wonder how much of this would come down to screen calibration / color accuracy? If everything's consistently off in 1 direction I guess not much, but I would imagine certain shades might appear effectively the same on some cheaper screens?
Would be interesting to get some basic analysis of my results. From a glance it appeared that the ones I missed (6) tended towards red. The low saturation ones and green ones I found to be easiest, but was there any actual significance of the distribution of my errors? Simply too small a set to say?
I got the same number wrong but I've passed every Ishihara test ever thrown at me. I did this test on a cheap mobile that's not calibrated, so it's anyone guess what its gamma and transfer curves are like.
One should only take such tests seriously if one's using a properly calibrated monitor and it's viewed under ideal viewing conditions.
Are you among the 1 in 255 women and 1 in 12 men who have some form of color vision deficiency? If you work in a field where color is important, or you’re just curious about your color IQ, take our online challenge to find out. Based on the Farnsworth Munsell 100 Hue Test, this online challenge is a fun, quick way to better understand your color vision acuity.
Definitely not a brag, but I scored 20/20 on my first attempt. Is this because my phone has a particularly good screen that renders colours very accurately?
I’m not in any way involved with art or graphic design or have any experience working with anything to do with colours so I can’t chalk it up to experience.
19/20. The first many were very obvious. I missed #14 and I think right around there I started to slow down because the differences were getting smaller. Looking away and then coming back helped, I think. It seemed like if you look at them too long, whichever circle you're looking at seems to shift color and it becomes really hard to discern the difference.
Shouldn't there also be a few "control" challenges sprinkled in where all three are the same color and there's no "right" answer? If the test is implemented well and/or there is no human bias (either from the previous question or from the positioning of the circles), then you'd expect to see a uniform distribution of answers on the control. If there is bias (e.g. some innate preference for the top circle (say)), that should get adjusted for in the final analysis.
There is certainly also a device limitation. I would expect that with less than full 24 bits of color, some fields might just look the same and the results do not depend on your vision any more.
Let's say the device has a "24 bit color display".
What about eye protection color shifting? This limits the color space used could reduce the effective remaining bit depth.
Or maybe they do temporal dithering to get more bit depth? Or maybe the 24 bits are already achieved with temporal dithering?
It does not need to be a calibrated display, but a cheap tablet in sunlight will be worse than a color grading monitor in a reference environment.
I hope they also register the devices used and analyze the statistics on that.
Calibrating a monitor is intended to ensure that colors on your monitor closely match colors on an ideal reference monitor. That's not the same thing as ensuring that two different colors on the same monitor actually show up differently; that's a much looser quality standard, because even a badly mis-calibrated monitor may still show both colors as distinct wrong colors.
I would only expect poor calibration to break this test for colors near the edge of the display's gamut, or if there's a drastic-enough shift that the color space's lack of perceptual uniformity means a numerical difference that should have been visible ends up in a different part of the color space where that same numerical difference is not perceptible.
Well, I initially ran the test on my cheap vivo phone when I switched to my Motorola the difference was very noticeable, there's obvious color crushing/reduced visible color gamut on the vivo, they're like chalk and cheese when compared side by side.
BTW, I used to calibrate color grading equipment for the film processing industry and the controls were strict, 18% gray walls, D65 calibration sources, densitometric equipment, Ishihara tests for me, etc. so I'm well aware of the issues.
What stood out a lot in this exercise is that when looking at, versus near a disc, its luminance (or maybe the color as well) is perceived as changing. Almost the same i have when staring at not too bright stars, they seem to disappear when staring directly on them.
And related, I once had an 'eye migrane'. During that half an hour, the figures of a clock disappeared the moment i looked at them.
I experienced this too. IIRC the brightness-sensitive rod cells are more concentrated in your peripheral vision while your central vision has more colour-sensitive cone cells. This makes the centre of your vision less sensitive to dim objects, so you can see them only while looking indirectly (and they "disappear" when staring at them)
Another related effect is flickering of badly designed lighting only in my peripheral vision. When looking directly at the lights they look fine, but when the lights are in my peripheral vision they appear to flash distractingly. I think the peripheral vision is optimised to detect fast changes/movements. At least, that makes sense based on evolution.
I'm curious how the eye migraine is related. I had one many, many years ago. It was a smallish (palm at arm's length) oval in the center of my vision that looked like snow on an analog TV, accompanied by a feeling of overwhelmed by all the colors of the products on the shelves (I was in a grocery). It stuck around for about half an hour for me as well.
I've also had eye floaters which cause things to distort and can be hard to see through. For about 6 months I had a large one in the center of my left eye vision, which was a bit scary when I discovered I might not see a car reflected in my wing mirror.
I've had it happen many times and it's usually followed by a regular headache. Quite terrifying the first few times it happened to me. Felt like I was losing my sight.
Spending the whole night gaming when I was younger would sometimes trigger it in the morning. Thanks to not having any more time for that, it hasn't happened in years.
I’ve had visual migraines ever since I started training hard with weights. Played sports in High School and never had one, but suddenly I’m doing CrossFit in my late 30s and an hour after a workout I get these sparkly jagged lines in my vision (both eyes!). It took a while to even be able to describe them, let alone figure out what they were. Thankfully there’s no pain and they clear up after a while, but I have noticed since this all started that I’m also a bit more sensitive to screen brightness. That HDR emoji article from the other day was kind of triggering.
The characteristic ‘jagged lines’ of aura is not at all related to the characteristic visual flashes of retinal detachment which an entirely different pathophysiology. Given that the advent of the flashes are new and related to exertion however it wouldn’t be unreasonable for the OP to keep a log of onset and duration and consider neurologist referral if they were to become more common with consideration for screening imaging as there are certain conditions related to exertion that can trigger aura
I had visual migraines for years, and was thankful they weren't full-blown... until I started getting headaches that lasted 18+ hours (pretty sure they're migraines). Now I'm just thankful I don't have multi-day-long ones.
Similar experience. What surprised me: sometimes the odd-one-out was really quick/easy to see, and other times it took much longer & I thought "at the end, they'll say all disks were the same color".
This seems to be a test of the color accuracy of a display. I got 17/20 and the 3 I got wrong were the last 3. I did this on my iPad Pro. For the last ones, they all looked the same to me.
I wondered whether any display issues caused some to have no difference. I wonder whether it could somehow do a test to be sure your display is up to the task. It's annoying not knowing whether it's a visual limitation or hardware issue that causes wrong ones.
Interesting. I only got 15/20, and previously considered myself "above average" at colour distinction tests but based on other replies that's not an especially good score. I'll try again, going more carefully.
I have poor color discrimination, but excellent flicker detection (?). This last skill was discovered by the senior devs when I was doing GPU driver debug, and “we” were looking for an extremely transient high-refresh rate tile clear issue. The issue only occurred at 120Hz (or higher) refresh rate with solid clear color on a large screen, with nearly identical colors. About one 4x8 pixel tile every minute or so. That was a boring few days, let me tell you.
Ah, yes, 19/20 the second time (only the last one wrong).
The first time I kept my eyes fixed in the same place roughly in the middle which clearly wasn't a good idea. On the second attempt I glanced between each circle in turn, trying to discern the difference over two points in time rather than two points in space.
Toward the end, I think the confounding effect of the afterimages of the discs was bigger than the difference between the discs. (That is, when looking at the three discs in turn, the effect of the afterimage of disc 1 on judging disc 2, etc.)
I honestly felt the grime on my phone’s screen had more impact on my accuracy than anything else. Sometimes i’d just rotate my phone and instantly spot the difference after the disks moved.
Is it sleep deprivation or do the disks actively change colour and swap places?
I think this must be a low light optical illusion - something to do with different sensitivity in center of eyes vs peripheral. Will try again in the daytime.
I definitely noticed that effect (it's late here as well) - I found it necessary for the last couple to look at the center of the triangle rather than each dot in turn.
Not sure what to make of this. Most looked the same and I couldn't tell if I was really seeing a difference or not. 12/20. (And I am color blind, so not sure if that has a lot to do with it or not.)
14/20. Increased brightness to full, turned off blue light filter (aka night light on Android), zoomed in, scrolled the circles up and down to dissipate after image from eyes, 19/20.
17 out of 20. good enough for me. actually, i wonder how many of the 17 were just lucky guesses haha! they mention data in the end screen, i wonder if it will be made public (so i can see where in the bell curve i sit)
The dark-mode browser extension I use changes the text from black to white on that page, which I hadn't noticed wasn't the original text color until you pointed out the poor readability of the black text.
Your display might have a more serious gamma problem, because the contrast ratio there isn't horrible on the displays I've tried. Or maybe your display is just set too dim for your viewing conditions. The test probably does legitimately need the neutral grey background.
I think this would be more fun if it started out easier, but most importantly if it gave you some real world stats at the end, such as how you compare to others, or whether you're colorblind etc.
18/20 on an uncalibrated "gamer" spec display with windows' late night colour yellowing turned on. I'd argue spec/calibration isn't maybe that important, as long as a difference can be spotted.
How do I know my screen can display all of these correctly? I tried on three different screens, one of which I know is bad, and got 16, 16, 18. Is those two mistakes the error margin of the screen if my eyes are fine, or much more likely to be the error margin of my eyes?
For those reporting scores: please also report device type, like LCD/OLED, or which phone model if applicable. Tweakers.net has a large database of screen color measurements. As mentioned in e.g. https://news.ycombinator.com/item?id=43746400, it can make quite a difference
My 18 score was on an Oppo Reno8, the 16 score on the not-known-bad screen is some ~2008 display. On the former, Tweakers reports an average color error of 3.42 ΔE2000, 9.58 ΔEITP, or 2.60 ΔE2000 if white is excluded
20/20 but I've always done well on these color tests. I had to pause for a second and look with my head twisted though so the afterimage of the previous color didn't affect the next one.
Got 18/20. I chalk that up to spending years as a graphic designer. I'd like to see a similar study about which text was perfectly kerned, or by how many pixels an element was off-center or misaligned. I can spot that on billboards a block away, and my life is therefore a constantly grating experience.
Marginally related. I paint oils as a hobby, and my studio gets northern light, usually overcast and cloudy, during the day. Differentiating tiny color variations under those conditions is very easy, and in general your objective "pitch perfect" impression of color is also pretty accurate. However, I've painted in the same room at night under a "warm" LED bulb, and been absolutely shocked at how wrong and blue everything turned out when seen in the light of day. Not just that, but the hues I intended to be close to one another are much farther apart than they appeared under LED lighting.
So if lighting conditions can shift not just your perception of a color, but also its relationship to the ones around it, then I think how much more does your screen gamma and range alter that? A fair test would be printed on the exact same Heidelberg in 4 colors.
Regarding the LED lights: unless you use a lamp with CRI < 90, you see obvious, glaring color distortions, and some colors just "disappear", cannot be seen, because of the lack of a particular spectrum bands. Sadly, most inexpensive LED lamps have CRI around 80, and that light feeld definitely artificial, even if pleasant to the eye. A lamp with CRI 90 is okay, most things look natural, even though you can notice it's not sunlight. A lamp with CRI 95 is very fine, it's practically sunlight, and most tricky colors are visible well. I've never encountered a lamp with CRI, say, 97, but they exist and cost a lot.
(Source: doing object photography.)
Surely an incandescent bulb, being a black body radiator, has a CRI of 100? Yes, the temperature is low compared to sunlight, but the rendering is theoretically perfect.
I suppose if you want to get closer to sunlight, you need a carbon arc, which is only a few hundred degrees cooler and again, a perfect black body emitter.
Yeah, metamers are a trip and a bad LED bulb will really screw with the appearance of colors. If anything, screens are more consistent, but more limited.
Swear on me mum I saw a game about kerning and alignment years ago on HN or proggit and of course it's impossible to find on search
I recall playing one that had to do with making sure the kerning was aligned…
Kern Type, perhaps? https://type.method.ac/
I wish this had a "I can't tell" option. A few of the really hard ones I got right, but I'd say it was more of a lucky guess than a genuine ability to discriminate the difference.
Quite. With the odds being 1 to 3 you'll pick the right one when you have to click one at random to proceed, the results get skewed.
If you repeat the test a few times, it'll average out.
That's why there's 20 rounds I guess. If you could just press "all the same" it wouldn't have to be as many
I was wondering if it got harder or if it's just random:
Plotting that first magic: https://lucb1e.com/randomprojects/js/testformula.htm#%24%28%... The "blacklist" parameter prevents that you get the same challenge twice. Note also that it submits every answer to the server (fine imo, but I think it would be even nicer if this was mentioned on the page)I appreciate https://lucb1e.com/randomprojects/js/testformula.html, it's a cool idea!
Happy to hear, though note the file is without l (lowercase L) in the end (I guess autocorrupt is to blame here?). Fun fact: if you remove the filename, it'll show you all the crap in that directory, listing this file as being last modified in 2015-09-27. If past performance is an indicator, it should be stable to use for the next ten years as well :D
This is from the creator of the ScienceClic YouTube channel [0]:
“As part of the next video, which will be out in a few weeks, l'd like to invite you to take part in an experiment about color perception. If you don't experience color blindness, l'd greatly appreciate it if you could take this test. Feel free to try it as many times as you like, think about it as a game!”
[0] https://youtube.com/@scienceclicen
Towards the end the disk I was looking at would change color and become brighter than the others. I didn't notice until I focused on each one at a time and the "different" one became the one I was looking at.
17 out of 20. Was super easy until #10 and I had to stop and think more carefully (which was actually my first mistake), and then I got #14 and #15 wrong. The score was about what I expected, though - would've been surprised if it was <15 correct.
I wonder how much of this would come down to screen calibration / color accuracy? If everything's consistently off in 1 direction I guess not much, but I would imagine certain shades might appear effectively the same on some cheaper screens?
Would be interesting to get some basic analysis of my results. From a glance it appeared that the ones I missed (6) tended towards red. The low saturation ones and green ones I found to be easiest, but was there any actual significance of the distribution of my errors? Simply too small a set to say?
I got the same number wrong but I've passed every Ishihara test ever thrown at me. I did this test on a cheap mobile that's not calibrated, so it's anyone guess what its gamma and transfer curves are like.
One should only take such tests seriously if one's using a properly calibrated monitor and it's viewed under ideal viewing conditions.
Interesting! All of my misses were blue leaning a bit towards violet.
Same here. The blues/purples were all alike. Reds and greens were easier.
The X-Rite Color Challenge and Hue Test:
Are you among the 1 in 255 women and 1 in 12 men who have some form of color vision deficiency? If you work in a field where color is important, or you’re just curious about your color IQ, take our online challenge to find out. Based on the Farnsworth Munsell 100 Hue Test, this online challenge is a fun, quick way to better understand your color vision acuity.
https://www.xrite.com/hue-test
(My memory is that the full test used to be online.)
19/20 - <https://i.imgur.com/GplfQbO.png>
By the way, I keep Night Shift enabled all the time: <https://i.imgur.com/LGkSlJZ.png>. I don't know how much it matters in a game like this.
See also <https://susam.net/myrgb.html> for a colour guessing game I wrote last year.
Definitely not a brag, but I scored 20/20 on my first attempt. Is this because my phone has a particularly good screen that renders colours very accurately?
I’m not in any way involved with art or graphic design or have any experience working with anything to do with colours so I can’t chalk it up to experience.
19/20. The first many were very obvious. I missed #14 and I think right around there I started to slow down because the differences were getting smaller. Looking away and then coming back helped, I think. It seemed like if you look at them too long, whichever circle you're looking at seems to shift color and it becomes really hard to discern the difference.
Interesting. Got 19/20 too, and also missed #14!
Shouldn't there also be a few "control" challenges sprinkled in where all three are the same color and there's no "right" answer? If the test is implemented well and/or there is no human bias (either from the previous question or from the positioning of the circles), then you'd expect to see a uniform distribution of answers on the control. If there is bias (e.g. some innate preference for the top circle (say)), that should get adjusted for in the final analysis.
How much of the result is vision accuracy and how much is dependant of the display?
There is certainly also a device limitation. I would expect that with less than full 24 bits of color, some fields might just look the same and the results do not depend on your vision any more.
Let's say the device has a "24 bit color display". What about eye protection color shifting? This limits the color space used could reduce the effective remaining bit depth. Or maybe they do temporal dithering to get more bit depth? Or maybe the 24 bits are already achieved with temporal dithering?
It does not need to be a calibrated display, but a cheap tablet in sunlight will be worse than a color grading monitor in a reference environment.
I hope they also register the devices used and analyze the statistics on that.
As I've mentioned, you can't take this seriously unless you've a properly calibrated monitor.
Calibrating a monitor is intended to ensure that colors on your monitor closely match colors on an ideal reference monitor. That's not the same thing as ensuring that two different colors on the same monitor actually show up differently; that's a much looser quality standard, because even a badly mis-calibrated monitor may still show both colors as distinct wrong colors.
I would only expect poor calibration to break this test for colors near the edge of the display's gamut, or if there's a drastic-enough shift that the color space's lack of perceptual uniformity means a numerical difference that should have been visible ends up in a different part of the color space where that same numerical difference is not perceptible.
Well, I initially ran the test on my cheap vivo phone when I switched to my Motorola the difference was very noticeable, there's obvious color crushing/reduced visible color gamut on the vivo, they're like chalk and cheese when compared side by side.
BTW, I used to calibrate color grading equipment for the film processing industry and the controls were strict, 18% gray walls, D65 calibration sources, densitometric equipment, Ishihara tests for me, etc. so I'm well aware of the issues.
I think you mean gamut? Calibration would only make the discs have the most correct color, not discernible colors.
Your score: 17 out of 20. Mistakes: 3
What stood out a lot in this exercise is that when looking at, versus near a disc, its luminance (or maybe the color as well) is perceived as changing. Almost the same i have when staring at not too bright stars, they seem to disappear when staring directly on them.
And related, I once had an 'eye migrane'. During that half an hour, the figures of a clock disappeared the moment i looked at them.
I experienced this too. IIRC the brightness-sensitive rod cells are more concentrated in your peripheral vision while your central vision has more colour-sensitive cone cells. This makes the centre of your vision less sensitive to dim objects, so you can see them only while looking indirectly (and they "disappear" when staring at them)
Another related effect is flickering of badly designed lighting only in my peripheral vision. When looking directly at the lights they look fine, but when the lights are in my peripheral vision they appear to flash distractingly. I think the peripheral vision is optimised to detect fast changes/movements. At least, that makes sense based on evolution.
I'm curious how the eye migraine is related. I had one many, many years ago. It was a smallish (palm at arm's length) oval in the center of my vision that looked like snow on an analog TV, accompanied by a feeling of overwhelmed by all the colors of the products on the shelves (I was in a grocery). It stuck around for about half an hour for me as well.
I've also had eye floaters which cause things to distort and can be hard to see through. For about 6 months I had a large one in the center of my left eye vision, which was a bit scary when I discovered I might not see a car reflected in my wing mirror.
The symptoms you mention read like scintillating scotoma: https://en.m.wikipedia.org/wiki/Scintillating_scotoma
I've had it happen many times and it's usually followed by a regular headache. Quite terrifying the first few times it happened to me. Felt like I was losing my sight.
Spending the whole night gaming when I was younger would sometimes trigger it in the morning. Thanks to not having any more time for that, it hasn't happened in years.
I’ve had visual migraines ever since I started training hard with weights. Played sports in High School and never had one, but suddenly I’m doing CrossFit in my late 30s and an hour after a workout I get these sparkly jagged lines in my vision (both eyes!). It took a while to even be able to describe them, let alone figure out what they were. Thankfully there’s no pain and they clear up after a while, but I have noticed since this all started that I’m also a bit more sensitive to screen brightness. That HDR emoji article from the other day was kind of triggering.
Sounds like symptoms of impending retinal detachment - ex discussion https://www.reddit.com/r/myopia/comments/o7rhi3/retinal_deta...
The characteristic ‘jagged lines’ of aura is not at all related to the characteristic visual flashes of retinal detachment which an entirely different pathophysiology. Given that the advent of the flashes are new and related to exertion however it wouldn’t be unreasonable for the OP to keep a log of onset and duration and consider neurologist referral if they were to become more common with consideration for screening imaging as there are certain conditions related to exertion that can trigger aura
I had visual migraines for years, and was thankful they weren't full-blown... until I started getting headaches that lasted 18+ hours (pretty sure they're migraines). Now I'm just thankful I don't have multi-day-long ones.
Similar experience. What surprised me: sometimes the odd-one-out was really quick/easy to see, and other times it took much longer & I thought "at the end, they'll say all disks were the same color".
Got 14/20
18/20 :D The only two I couldn't really discern were indeed the ones that I got wrong.
I'd be curious to see some sort of score for each in terms of similarity in terms of human perception, just to get a scale of difficulty.
This seems to be a test of the color accuracy of a display. I got 17/20 and the 3 I got wrong were the last 3. I did this on my iPad Pro. For the last ones, they all looked the same to me.
I wondered whether any display issues caused some to have no difference. I wonder whether it could somehow do a test to be sure your display is up to the task. It's annoying not knowing whether it's a visual limitation or hardware issue that causes wrong ones.
Interesting. I only got 15/20, and previously considered myself "above average" at colour distinction tests but based on other replies that's not an especially good score. I'll try again, going more carefully.
I have poor color discrimination, but excellent flicker detection (?). This last skill was discovered by the senior devs when I was doing GPU driver debug, and “we” were looking for an extremely transient high-refresh rate tile clear issue. The issue only occurred at 120Hz (or higher) refresh rate with solid clear color on a large screen, with nearly identical colors. About one 4x8 pixel tile every minute or so. That was a boring few days, let me tell you.
Ah, yes, 19/20 the second time (only the last one wrong).
The first time I kept my eyes fixed in the same place roughly in the middle which clearly wasn't a good idea. On the second attempt I glanced between each circle in turn, trying to discern the difference over two points in time rather than two points in space.
Toward the end, I think the confounding effect of the afterimages of the discs was bigger than the difference between the discs. (That is, when looking at the three discs in turn, the effect of the afterimage of disc 1 on judging disc 2, etc.)
It could rearrange the discs each time to avoid this issue, perhaps just flipping the pattern vertically each time.
I noticed this too. I did much better covering up two of the disks and looking at them one at a time, or comparing pairs of disks.
Was way easier after deactivating the Android night light.
Not bad, I only missed 2 on purple and 2 on brown. It seems those laser safety and solar eclipse goggles do indeed work!
13 out of 20 for me. Would've been 14 but I misclicked on one early on.
I honestly felt the grime on my phone’s screen had more impact on my accuracy than anything else. Sometimes i’d just rotate my phone and instantly spot the difference after the disks moved.
Is it sleep deprivation or do the disks actively change colour and swap places?
I think this must be a low light optical illusion - something to do with different sensitivity in center of eyes vs peripheral. Will try again in the daytime.
I definitely noticed that effect (it's late here as well) - I found it necessary for the last couple to look at the center of the triangle rather than each dot in turn.
7/20. I'm also red green colorblind so that likely has something to do with it. Could also be the phone screen I'm looking at.
With phone screen on full brightness I was able to get 14/20.
I think it matters what colors you looked at in the previous screen. It takes a while for the eyes to adjust.
Aww. 16/20. Seems like this is the worst score anyone's posted, other than the color-blind guy who tied me.
17/20
Wonder how big an influence the type and quality of screen has. Do OLEDS give an advantage for instance?
19/20. I'm on a MacBook, so I have a pretty good screen.
Not sure what to make of this. Most looked the same and I couldn't tell if I was really seeing a difference or not. 12/20. (And I am color blind, so not sure if that has a lot to do with it or not.)
18/20 correct, I think I did well? Interesting how sometimes it's more of a feeling than an objective perception.
At the end it says I can play again, because it'll generate more data. But for what?
It'd be cool to see some stats, or learn a bit more about what I just did...
14/20. Increased brightness to full, turned off blue light filter (aka night light on Android), zoomed in, scrolled the circles up and down to dissipate after image from eyes, 19/20.
20/20 (once) - I found that by looking at the edge between the border and color sample that I could usually tell pretty quickly.
17 out of 20. good enough for me. actually, i wonder how many of the 17 were just lucky guesses haha! they mention data in the end screen, i wonder if it will be made public (so i can see where in the bell curve i sit)
My 14/20 went up to 18/20 after I turned up my phone brightness.
Black text on dark grey background, sorry, that's too hard to read.
It's true that white text would be more readable on that background: https://www.achecks.org/apca-accessible-colour-contrast-chec...
The dark-mode browser extension I use changes the text from black to white on that page, which I hadn't noticed wasn't the original text color until you pointed out the poor readability of the black text.
Your display might have a more serious gamma problem, because the contrast ratio there isn't horrible on the displays I've tried. Or maybe your display is just set too dim for your viewing conditions. The test probably does legitimately need the neutral grey background.
I think this would be more fun if it started out easier, but most importantly if it gave you some real world stats at the end, such as how you compare to others, or whether you're colorblind etc.
I found it did start out really easy, getting harder half way. You might have some form of colour blindness (or a really bad monitor).
does 20/20 on my first try mean i get the job?
19/20 the neon blue one really messed with my head and kind of hurt to look at for some reason, so I am not surprised I got it wrong.
I got 17/20, but then again I have a high-end NEC PA302W hardware color-calibrated monitor.
18/20 on an uncalibrated "gamer" spec display with windows' late night colour yellowing turned on. I'd argue spec/calibration isn't maybe that important, as long as a difference can be spotted.
18/20 on an iPhone – they’ve have Display P3 wide colour for many years.
19/20 somehow on my first try. Near the end was just tiny differences in saturation or brightness.
Oh god this is colorblindness torture
Browser > right click on the dot > inspect the RGB numbers
The first line on the page says
> Click the disk that's a different color. Use your eyes only!
Inspecting the color is cheating.
Clever.
How do I know my screen can display all of these correctly? I tried on three different screens, one of which I know is bad, and got 16, 16, 18. Is those two mistakes the error margin of the screen if my eyes are fine, or much more likely to be the error margin of my eyes?
For those reporting scores: please also report device type, like LCD/OLED, or which phone model if applicable. Tweakers.net has a large database of screen color measurements. As mentioned in e.g. https://news.ycombinator.com/item?id=43746400, it can make quite a difference
My 18 score was on an Oppo Reno8, the 16 score on the not-known-bad screen is some ~2008 display. On the former, Tweakers reports an average color error of 3.42 ΔE2000, 9.58 ΔEITP, or 2.60 ΔE2000 if white is excluded
Your score: 20 out of 20. Mistakes: 0
11 of 20.
20/20 but I've always done well on these color tests. I had to pause for a second and look with my head twisted though so the afterimage of the previous color didn't affect the next one.
I got 16/20 but I am colorblind and tried it on a small 8+ year old laptop screen in dubious lighting conditions :)
Tried it briefly, upto 6. Got all right. Gonna do more later.
Need some interesting optical illusion type of posts on HN!
Escher's creations are cool. Our chemistry teacher introduced us to them in school.
https://en.m.wikipedia.org/wiki/M._C._Escher
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