Every Other Video About Color is Wrong

I taught introductory chemistry for 35 years. I wish I'd had this video to show. An excellent introduction/overview of the relationships between color, light and molecular structure. Thank you for sharing.

I can not emphasize enough how beautifully well-made this video is. I've learned things like Moleculer orbital theory, antibonding, the electromagnetic spectrum, etc... for a while, and this video summons things up so perfectly in a linear explanation that is just like recaping all the hunders of videos I've watched about it, in just 21 minutes. Despite that, it manages to teach something new, too. I had no idea that the electronic configuration (despite all the videos I've watched, which makes the title of the video that more credible) played a role in the reflection of photons and it's color. The vibration of moleculas and how it influences the greenhouse effect was intruced by your college on this very channel, talking about how polar moleculas themselves absorb photons differently and reflect light, but the heavy water example perfectly click. I'd like to see an exotic planet with yellow water now!

Next Video: The Last Video About Color is Wrong pulls up with quantum electrodynamics and quantum chromodynamics

Chemistry: That place where physicists and biologists go to argue with each other.

Man, the moment Molecular Orbitals popped on screen I had a traumatic flashback to P-chem, and its follow-up class (that I had to take my final semester) Group Theory, Spectroscopy and QM. This video did an INCREDIBLE job accurately and concisely condensing a significant portion of the conceptual matter of those classes down to 20 minutes. Really wish it had existed before I had taken those classes. Once again, absolutely brilliant job communicating across that much at that granularity so effectively.

I’m taking Inorganic right now and have been so lost with MO theory and having it drawn out and explained how you did cleared a lot of things up.

The production and wardrobe of this video is one of your best!

If a video is wrong because it misses some details, then most if not all videos on anything are wrong.

Dear Editor: you nailed it. This is better than at least 20% of Academy Award nominees.

This is one of the few channels with multiple hosts where I love both of them equally. So great.

Minor detail: The trace ions causing blue color in sapphire aren't copper and magnesium, they're titanium and iron. Though sapphires can also come in many other colors from other trace ions.

> apologizes for pronunciation of "ligand"
> immediately goes on to pronounce "aluminium" wrong

OK, cool color vid, but tell me, how did you get the quality of your voice so uniform in so many different locations? Overdub? (great lip-sync, if so!), super-duper mic? AI?

I dunno why channels clearly targeting people with voracious curiosity and a passion for learning engage in hating math. The math is the language used to document and describe the physical world. It’s a beautifully elegant miracle of human ingenuity, and should be met with similar levels of awe and enthusiasm, in my opinion anyway.

This one is really fantastic, and I enjoyed it. I've been mulling over the weird properties of light lately. Specifically, how raising shells makes visible light and how it's the fastest speed anything can go. I like how you tied the chemistry into that all. This is the most under-rated chemistry channel on RUclips.

When blueberry juice in my tapwater is above a certain concentration, it looks purple-red, but as I dilute with more tapwater it turns a faint blue at some point. I always assumed it was an acid-base titration thing. Now I'm going to have to try it wilth distilled water. Fascinating.

Color is the psychological phenomenon that happens after light enters your eye and interacts with your retina. This is an excellent video, and it briefly touches on the biological aspect, but it actually describes how particular spectra of light is produced. That's not what color is.
Different spectra can appear to have the same color. Your computer monitor can appear white even though it's got a spiky spectra of wavelengths associated with red, green and blue. The sun or a light bulb can appear the same color as your monitor even though they has a totally different, smoother spectra. Different spectrum, same colors.
For a color-blind person, the world around them is doing the same things, and the electrons are doing the same things, but their retina has a problem, so they see different colors. Same spectrum, different colors.
Color is not wavelength of light, and it's not the spectrum of light, and it's not the peak of the spectrum of light like some nonsense "the sun is green" videos would have you believe. It's not light at all. It's not even the interaction of light with your retina. Color is in the brain. Our eye-brain system is not a spectrometer, and it doesn't work like a spectrometer.

12:03 "THIS is the best explanation I have seen..."
_expects viewers to just be familiar enough with Veritasium to identify the vid from a tiny zoomed-out view, and fails to provide the source in any fashion_
What are we doing here?? 🤨

If it weren't for the PBS tag in the thumb nail, I would never have clicked on a video with such a click-baity title. Just saying.

This is a great video, excellent explanations and narration. On a small side note, I just wanted to compliment the costume department, the color coordination with the backgrounds is top notch.

When you were talking about vibrations and colour, I was waiting for the crystals (said with a Zen calm) to make an appearance 😂. Didn't disappoint!
Btw, the butterfly pea juice colour change when you add acid (lemon juice)would also be a great way to explain the impact of molecular structures on acid (+ people can try it out at home) and makes for a gr8 drink 🍷

The majority of explanations in science are focused and simplified in scope. This video is wrong too. Everything is multilayered and requires peeling back the details. But that's why college courses take semesters. And degrees take years. And PhDs take decades. And careers take a lifetime. Etc, etc. At some point, there has to be some level of summarization. That's not a defect, it's just the reality of learning.

All of this is why I became a computational chemist! I ended up not working on anything spectroscpoy/light related at all but still

3:59 “The light waves don’t have color themselves but different trigger or eyes and visual systems in our brains to perceive different [colors].”
Thank you! Oh my god, so many people think wavelength and color are the same thing it’s not even funny.

Thank’s for an amazing video! Going deeper into light absorption and chemoluminessens. I really liked how you showed the electron probability distribution in the indigo molecule in the exited and non exited state :)! But when you talked about combustion and the blue spectrum in the bottom with more oxygen there making it hotter and therefore blue, I think it is a misconception. When carbon monoxide oxidizes to carbon dioxide it emits photons in the blue spectra… however it is not as much as the black body radiation that gets emitted in the flame above as sot is generated. therefore, you can not see the blue color although this reaction is happening throughout the flame. It’s like turning on your headlights of your car during the day time, no one will notice:). If you look up black body radiation and blue color limitations you will see why you can’t get the distinct blue color you get in the bottom of a candle for instance in combination with adiabatic temperature you’ll see why you can’t get that blue flame. Clean combustion means less sot and therefore less black body radiation leading to more of the CO to CO2 chemoluminessens showing through. Anyway, really great video :)n

3:55 I know you not want to hear it but, is the arrow of wavelength in your hand-drawn electromagnetic spectrum pointing towards higher frequencies? Still, fantastic video!

The color iceberg is my favorite one to visit. Color production can also arise from refraction and diffraction commonly too. Things get wilder when considering nonlinear optics, synchrotron radiation, and free electron lasers.
My whole mental model of light is out in the boonies at this point. It just gets stranger the more I learn.
Excellent video and much more detailed than expected!

I am so impressed with how good the audio quality is. I can clearly see in quite a few shots but I don’t hear any wind at all. It really allows me to focus on the words being said instead of the noise. Great job!

I am thirty-eight years old and autistic.
You actually taught me something I didn't know today. Actually a lot of things. It usually takes a working researcher to do that. Thank you. Chemistry keeps being fruitful in this way. Maybe I should consider that as a hint in my quest for a career change. You just earned a sub from a first watch. Keep being awesome.

A remarkably informative video, it doesn't shy away from the actual science but never gets so technical that your eyes glaze over while drool drips from your lower lip. The host is well informed and engaging, and displays an honest level of excitement and interest in the topic. Well done. And thank for this info 7:32 During my edible-filled trip to Cancun in 1998 I spent hours one night vibrating at the same frequency as the Caribbean sea, knee deep in bright azure water much knowledge was shared between the Universe and myself through that aquatic medium, but no one believed me, said I was just hallucinating. I was that, heroic levels, that's the only way to vibrate at that frequency.

Great video.
Your discussion of constructive and destructive interference reminds me of an interesting thing which has been done with photographic lenses for many decades now. One of the reasons for this, is that by having an even coating of some material, which is exactly n+1/2 wavelengths of a given colour of light, the light reflected from the surface of the coating interferes destructively with the light reflected from the underlying glass below. Since energy must be conserved, adding this coating counter intuitively 'increases' the transmission of light through the lens. This is particularly important with modern lenses, which need to have many lens elements in order to correct for other issues. Also, modern lenses are 'multi' coated, since they have to also account for different frequencies of light.

Well gosh darn! Definitely the most thorough description I've ever seen, basically combining tons of other more specific descriptions.

Very nice explanation, love how you move from one form of color "generation" to the next one, so seamless.

Very interesting perspective on subtractive color. But what about additive mixing of colored light?

Very well done. Colour is such a complex topic, and you've treated it elegantly and accurately. Congratulations! If you had spent yet another minute explaining phosphorescence (as distinct from fluorescense, that would have made it even better!

Thank you so much for telling it like it should be told. All around are only parts of that and that only confuses me. I never heard the hole story in one video which is absolutely perfect to get the knowledge and understand it all.
Tysm !

This video about color is wrong in all the same ways the others are.

An interesting thing about color is the difference between additive and subtractive mixing. If you add all your colors of pigments you get browns and black but if you add all the colors of light together you get white light. So if you are using uv active paints you are painting with light 😮
A few years ago I made a video about mixing fluorescent red green and blue pants will almost make white light. I say almost as it's actually both subtractive and additive creating an off white as it self illuminates its own ugliness.

this is such a good and well carried explanation of how molecules and different phenomenons get to have colors, it really helps me complement an Ochem lab session where we synthesized some azo dyes!

Wow. I knew all this but still enjoyed your explanation immensely! Thank you!

Many common explanations on color are indeed wrong. They will say things like: this yellow thing appears yellow because it absorbs *all* wavelengths *except* yellow. That is so wrong it sort of drives me crazy whenever I hear it! lol. In reality, *all yellow things* appear yellow because they absorb light in the blue-violet region of the spectrum and reflect everything else. In fact, if they absorb too much of the blue portion they'll appear orangish. If a material actually absorbed all wavelengths except yellow, they would appear either a dark olive green, or nearly black, depending on how wide the gap is in the yellow portion (560-590 nanometers) of the spectrum.

Wonderful presentation, and very impressive that you watched every other video on the topic of color in order to ascertain the facts required to produce the only correct and complete video on the subject. Anyhow, this is the first of your videos I have seen and of course I must subscribe.

The audio transitions are *chef's kiss*

How people see color is also a chemical reaction

The earring choice didn’t get past me. Thanks for the little details

First time viewer here. I’m a chemist, so I thought I would just play this in the background and go about my business, but… holy cow! I had no idea why water was blue. I had to bring this to the foreground and comment to convey my appreciation for this fantastic video.

I like basically all of your videos. But boy this one is just sooo good. I study physics so I heard most of those concepts already but no one ever explained them in such an interesting way . Congrats and thanks for all the interesting facts and the really nice explanation 🥳

This is such a cool video! Quite easy to follow and well organized. This helps me appreciate learning molecular orbital theory.... i used to despise it!

EXCELLENT! While I already knew bits and pieces of what you covered, you put everything together in a compelling and easy to follow way. You've just earned a new subscriber. [I thought this video was going to be more about our human *perception* of color.... maybe you'll also cover that in more detail in another video.... but BRAVO on this video!]

Hi Reactions,
Your video is interesting and covers a large subject that can't be presented honestly in such a short video.
I have to mention that about your affirmation of impurities responsible of the corundum colors (red rubbies and blue saphires - I did write the color and name because rubbies are simply red saphires and saphires not simply blue because geologically speaking they can be found in about all the field of rainbow colors even colorless as (as you presented) leuco-saphires what are plain aluminia). Most of the time saphires can be black because the impurities becomes too high in concentration and as a matter of facts nearly all colors turns into black if too concentrated.
At home I have orange, yellow, pink, red, colorless and blue (synthetic and/or natural) ; I could make any color by fusing Al2O3 with tiny amounts of metalic oxides of my choice to make blue, yellow and red or any mix of those (I already made synthetic red rubbies from green Cr2O3 and colorless Al2O3 and a blow torch (butane/N2O burning as hot as 2800°C); an acetylen/oxygen one could burn up to 3100°C).
To make yellow saphire one simply needs a little Fe2O3 (yes rust)
To make blue colored saphire one would need FeO, TiO2 it would eventualy work with CoO (see blue tinted glass).
Sadly MgO would make colorless MgAl2O4 (what is a comon mineral) into geology.
My guess is that black CuO (or Cu(II) cupric oxide) will provide some green not blue (and red Cu2O (Cu(I) cuprous oxide) will provide something completely different).
To give you an idea normal glass (SiO2 mainly with CaSiO4 and Na2SiO4) is brown-yellow thanks to traces of Fe2O3, green thanks to CuO amongts others, blue thanks to CoO.
Mg silicate is colorless
Regards,
PHZ
(PHILOU Zrealone from the Science Madness forum)

awesome video! love the transitions, underrated channel for sure!

Such a great video! You don't pull any punches when going into deep technical content. Awesome. So now the bad news. The title says that every other video about color is wrong. Unfortunately, your video about color is also wrong. "Color" does not exist as a physical property; color is a perceptual response that exists only in our visual cortex and it is a response to the spectrum of light that is focused onto the retina and color varies depending on what else is in the visual field of view. The spectrum reaching the eye has all the chemical interactions you discuss in this excellent video but it also is dependent on spectrum of the incident light. Two completely different materials can be perceived as having the same color because the reflected spectra from those materials generate identical responses from the cones in the retina. Again great video! I was just having fun with your title. Also, the earrings were cool!

Such a well made video!
Such an eye opener!
And to think that a lot of this content was not even known about, back when the know-it-all scientists of old gave the ultimate explanations of everything in the Universe...
Oh well, they were just trying their best with WHAT LITTLE they actually had an understanding of.

My favorite color fact is that gold would be silvery without relativistic effects altering its electron orbitals.

You should look into mirrors too... what is even crazier is that the light isn't actually bouncing. The atoms are basically sending out new light.

a rapid-fire marathon of info but the best video about "light" on youtube for sure!

Now you have me imagining evolving organs to sense other wavelengths. For that, you get a new subscriber.

This is the most incredible video I've ever seen. A huge step closer in my journey to understand the nature of reality. Thank you for your effort here.

small correction- metals have not a small gap but superposition of bands

"So much math for just that"
> One basic equation with multiplication and division
Great vid tho ❤

"This one is better."
- Every other video on Color

Can we acknowledge real quick how good the audio editing is? She's sitting in a field with a road in the background and all we hear is her voice. Is this a voice over?

PBS Terra sent me this way and I can see why. This was great.

One thing I don't see appreciated enough is how good you guys are at keeping the vocal quality consistent despite all the different sets you present from
Also Geologist: I say it ligand like brigand

If there were d & f orbital animations that weren't shown, I'd be interested in seeing them.
This channel has really good content btw.

I am very impressed, interesting, short to the point dense and really deeply explained. It's really getting me to remember a lot of my chemistry like 20 years ago and also learned a lot of new things.

Was watching this not even expecting to learn about UV light as well, thank you for telling me about Stokes Shift. I finally have the right term to research something I've wondered about for years why some things glow a different color under UV.

This is a really good video on the chemistry of color, but your title does a great disservice to the many other valuable and correct videos that simply address other aspects of "color" other than chemistry. Those videos are not WRONG. I know you were doing it tongue-in-cheek, but these days we really as a community should not be devaluing other accurate videos on science topics!

great video as usual, keep up the great work! chemistry is so fun and exciting to learn about, hopefully more people will grow to appreciate its beauty.
also its li-gand. But I am a chemist so if what you said is true, then it checks out 😆

Kudos! Great video!! (You did miss a big one. Hint: red stained glass.) But I came to leave a comment about a great sophomore level textbook for any STEM student that covers many of these topics, James D. Livingston’s Electronic Properties of Engineering Materials. Since the first printing came out in 1999 before the big research effort in metal colloids, that topic is not mentioned. Though the physics is covered in Chap 2, Section 4. Cheers and keep up the great videos!

As an amateur, I find this to be very educational! I have always known there was an energy cause to color, but this video shows, and proves to me, the how and why, Thank you!!
It puts to bed most of my questions I have wondered about over the decades!
It also answers the question as to why some materials are transparent and others are not. It isn't because the object is denser, but that the energy we see is blocked and reflected by the electrons position in the orbits of the molecules, and those electrons can be caused to change orbits by chemical means, or by temperature, or even by changing the electrical charge of the material, which alters the position of the electrons in their orbits.
I could sense the answer, but not understand it enough to vocalize it, but this video explains it to where I can understand it.

Coming from the chemistry/physics community here so I use, Lig-and rather Lye-gand
BTW This video was fantastic! I have so many people to share it with. I love how the video catches so many of the nuanced ways colors are made. It’s my favorite thing when something that’s taken for granted like color is explored in all its beautiful glory. For anyone who is interested there is a Nature paper that shows ANOTHER ORIGIN of color not covered in the video.
Acharya, S., Pashov, D., Weber, C. et al. A theory for colors of strongly correlated electronic systems. Nat Commun 14, 5565 (2023)
The summery is that there are materials with large band gaps that should be clear, like the quartz in your ruby/sapphire example. However, even in the absence of impurities they have a color in the visible spectrum. The reason why is strong electron interactions. There are various forms they interact that are either related to charge or spin but still a fascinating read.

We love pn junctions yipee
probably the best explanation of band gaps you can give without mentioning fermi energy :)
I feel like this kind of explanation is pretty useful for anyone trying to understand how IR spectroscopy works as well

"energy" doesn't interact with anything. Energy isn't even a "thing", it's just constraints for transitions between physical states. _Light_ interacts with things.

Just a heads up, the English subtitles are broken. Instead of being timed, it's all on the 0:00 mark. Keep up the good work though!

this video gave me so many realizations. not just color, but electromagnetic radiation in general. thanks for going so in depth on it!

Absolutely wonderful video! There is so much content I can use to enrich all my science classes as well as my own understanding. Thought I had a solid grasp of color from the Planck relation and orbitals, blackbodies, Rayleigh and Rei scattering, cones, but now vibrations and fancier orbitals!

The explanation of color being when some light is absorbed and others reflected isn't wrong; it just isn't complete. Fortunately this video gives a lot more detail. I also appreciate that you showed the absorption spectra which I love because it gives you insight in what colors you should see, especially as it relates to different concentrations or path length.

Awesome video + great explanation + cool presentation + beautiful dress + nail polish....
Thanks for quality infos..
Do more good quality videos..

Absolutely fantastic. First time watching you. Subscribed!

18:24 "I like when chemistry works" as a chemist, I do too lol

As a wanna be artist, I'm fascinated by the fact that we don't have all possible colors in our pigments. For instance it would be nice to have a cyan pigment that could be used in our four color printing process. Since it doesn't exist, we have to mix two blue pigments to get a cyan color which is a little duller than what a pure pigment cyan would be.

Wow, absolutely incredible. Beautifully well-done explanation. Thank you for sharing!

I hate to be that guy, but all of the videos about color I remember mention electron absorbtion and re-emission 😅

I'm curious enough to want to try and understand this video, but its too advanced for someone like me who barely knows the basics of what colour actually is, I chose not to write down any notes, i'll spend abit of time going to learn the very basics on colour and gradually get a better understanding to hopefully get my head around this topic/video in a weeks time, looking forward to see how i progress

Differentiating between color and wavelength is important here. Color is human qualia, while wavelength is purely physical. For example, I, as an (artificial) tetrachromat, will not agree to how most people describe colors, and I'm able to tell wavelength combinations better apart. But I still see the same wavelengths/light as everybody else. I don't think that "every other video about color is wrong", they're just looking at color from a different frame of reference and might not go as much into the physical and chemical details as you did. I also can't just say everybody else is wrong about color, just because they're looking at it with a different frame of reference.
Nonetheless a great video! I've learned a few things I didn't know before.

It is undoubtedly a well made video, but that bit of arrogance at the beginning (and in the title) was not necessary.
This video focuses on chemistry of color only, many other videos focus on things like color perception, how they create signals in our eyes, how additive and subtractive mixing work or even how the brain creates illusions through colors. Maybe sometimes explanations in videos are too semplificated and a bit imprecise, but I've seen a lot of them and they were not actually wrong (most of the time at least). They just have a different main purpose. As you said at 4:07 this is not a biology video but a chemistry one. You wanted to talk about chemistry facts that no one talked about maybe, that's fine and you did a great job. But you focused only on chemistry, not on all the big variety of topics around colors. A guy interested in understanding chemistry of colors should watch your video rather than many others, while a guy interested in color perception and mixing should watch other video rather than yours. Your video is not "better than all those other videos" (0:34), it's just another (good) video.

14:24 where the place is ?where are you from? Your science demonstration videos are incredibly amazing 👏🏻👏🏻

Good job on this video ACS😎👍

Moar physics pls,, the band theory is used in nuclear physics and solid state physics to detect ionizing radiation, its used in counters too! This is actually a big part of all the physics that study materials. Ty for awesome vid!

The explanations in the video are great, there is one piece of conceptual information needed to justify absorption as the reason for color. One should wonder why absorption creates color since when the electron falls back down from the higher energy state, shouldn’t radiation of the exact same color be emitted? That is true indeed, and we shouldn’t get any color. So what’s missing here? We forgot to talk about all the non-radiative processes that can relax and electron down. These includes creation of vibrations, dark states, and other states that form a continuum. This is key to understanding why color indeed exists !

This is ridiculously high quality. It's excellent on every level.

11:47 This is also how you can tell you have clean smoke when making BBQ. Clean blue smoke means near complete combustion, which avoids that acrid taste you get from dirty smoke choked into the cooking chamber. Very cool video!

This is one of those videos that I'm going to have to watch a bunch of times. So good.

10:35 it might be worth mentioning that the red and yellow parts of a flame are primarily black-body, making the effect different than the spectral emissions of neon signs

Small correction, the thing that makes Blueberries blue are actually a class of chemicals known as Anthocyanins, which actually change color with ph! The skin, which is neutral, is a bluish color, but when blended with the acidic flesh make it purple! If you add a base (like Milk of Magnesia) you'll turn it back to blue, and even a gross green color if you add too much
Source: Adam Ragusea, the steak cutting board guy

I knew you had it right when you started talking electrons! I had this conversation with a friend a few years ago and I had to use the Chromium oxidation states example to finally get him to understand it is not just reflected light. I do not care how you say Ligand but it is Max Planck (Plonk) kind of like donk. What is the meaning of the zinc button?

20:36 apply the same angle-dependent color to radio wavelengths that we cannot see and you have modern stealth technology. the goal isn't to be unseen by radar waves, the goal is to scatter them so they never make it back to a radar receiver.

I was just having a conversation with a friend who is studying radio frequencies for their work, we then talked about how I used to hum along with music in the car and if I managed to get just the right frequency it would cause a warbling sound that was the result of constructive interference. Then this video appears and covers constructive and destructive interference in light.

it's so interesting that pronunciation can not only differ by culture, region, generation, etc... but also by scientific fields...