Because it's metal as fuck, that's why. Electromagnetic equivalent of a sonic boom.
Also, it's pretty:
Please don't post about US Politics. If you need to do this, try !politicaldiscussion@lemmy.world
1) Be nice and; have fun
Doxxing, trolling, sealioning, racism, and toxicity are not welcomed in AskLemmy. Remember what your mother said: if you can't say something nice, don't say anything at all. In addition, the site-wide Lemmy.world terms of service also apply here. Please familiarize yourself with them
2) All posts must end with a '?'
This is sort of like Jeopardy. Please phrase all post titles in the form of a proper question ending with ?
3) No spam
Please do not flood the community with nonsense. Actual suspected spammers will be banned on site. No astroturfing.
4) NSFW is okay, within reason
Just remember to tag posts with either a content warning or a [NSFW] tag. Overtly sexual posts are not allowed, please direct them to either !asklemmyafterdark@lemmy.world or !asklemmynsfw@lemmynsfw.com.
NSFW comments should be restricted to posts tagged [NSFW].
5) This is not a support community.
It is not a place for 'how do I?', type questions.
If you have any questions regarding the site itself or would like to report a community, please direct them to Lemmy.world Support or email info@lemmy.world. For other questions check our partnered communities list, or use the search function.
Reminder: The terms of service apply here too.
Logo design credit goes to: tubbadu
Because it's metal as fuck, that's why. Electromagnetic equivalent of a sonic boom.
Also, it's pretty:
In terms of physiology, the color is stimulated in the brain when the eye reports input from short wave blue cone cells along with a sub-sensitivity of the long wave cones which respond secondarily to that same deep blue color, but with little or no input from the middle wave cones. The brain interprets that combination as some hue of magenta or purple, depending on the relative strengths of the cone responses.
In other words, our brains are like "π€·ββοΈ, here's a thing"
And you can pronounce it "foof"!
490-510 nanometers, I love cyans and greens. Teal and turquoise are very relaxing colors to me π
Ultraviolet.
IE a black light. It's the only light that makes pigments even cooler.
I'm a fan of synthwave. AKA Outrun. Colors from that pallette on a black background are my jam. If I have to pick one, I'd go with neon purple.
I like #B00B69. Not only for the name, but also because it's a really nice magenta color
Color app says "Lipstick"
Ultraviolet. It makes other colors that much more cool just by being there. And it kills things.
The one positive to wearing contacts all the time is that my eyes are mostly protected from UV. I always think how cool that is even if I still avoid looking directly at UV lights out of caution.
Turquoise, it's very fantasy-inspiring.
What I call Parrish light - the distinctive tone that's prominent in Maxfield Parrish's paintings.
It's a relatively subdued but clear reddish orange that I see most commonly with relatively uniform but thin thunderclouds at dusk. It makes blues and greens much more vivid, in spite of the fact that the overall amount of light is relatively low. And it's glorious.
investigates
This painting of his -- Daybreak -- has a pale red-orange and has blues and greens that sort of jump out more because of that, I suppose. Is this what you're referring to?
Daybreak, inspired by the landscape of Vermont and New Hampshire to create lush and romantic tones,[1] is regarded as the most popular art print of the 20th century, based on number of prints made: one for every four American homes.
The technique of glazing, using a varnish over several layers of paint at once helps to achieve the soft glow and whimsical style Parrish is so well known for.
Parrish referred to Daybreak as his "great painting", the epitome of his work.
Pretty much.
Don't get too hung up on the name - it's just a personal bit of shorthand. What I'm talking about is the actual phenomenon. Parrish's paintings are just the closest popular representation I've seen of it.
It seems to happen most often in late summer, when (in my area at least) afternoon thundershowers are relatively common. There are times when the clouds will roll in, but they're not dense enough to bring rain, and just at dusk, the light through those clouds is diffused but oddly clear, so in spite of the fact that the light level is low overall, colors, and especially blues and greens, really pop.
In HSL terms, it's essentially 100% saturation but only maybe 30% light, and since the light shifts toward red/orange, the blues and greens are the colors that stand out the most.
In HSL terms, it's essentially 100% saturation but only maybe 30% light, and since the light shifts toward red/orange, the blues and greens are the colors that stand out the most.
A little physics of light correction: The colors that red and orange light cause to pop are red and orange. Red/orange light does cast a blue/green shadow color, though. The compliment of a lightβs color is always the ambient color temperature of the light sourceβs shadow. That may be what you mean because a Red/Orange light will always make Reds and Oranges more intense than other colors since that is where most light energy is accumulated. For example, if I put a Red gel over a light then cast that light upon a solid blue surface, significantly less light would be bouncing off that surface than if I had used a Red surface.
https://www.muddycolors.com/2022/07/color-theory-part-9-the-anatomy-of-shadows/
Hmm...
I would assume then that the effect is somehow tied in with the fact that the light is diffused and relatively dim, since it's simply a fact that the blues and greens are the colors that pop. Possibly there isn't enough light to show up orange or red - effectively, everything is sort of in shadow?
And by contrast, as I write this, it's very smoky where I am, and yes - the light is notably orange. And I've noticed before that when it's like this, shadows have an obvious blue tint.
Favorite all-time painter!
"Raphael, imma let you finnish, but Maxfield Parrish was the one of the best painters of all time. Of all time!"
I like a yellowish/golden color I set the led bulbs in my lamps to that make it feel like an old library or bookstore.
You have a hexcode for it? Or a similar image you can link to thats the same, sounds nice
I didn't see a hex code in the app I'm using, but it's something like this
I think you'll appreciate #ffcc66
#FF7700! I love this orange color and use it in all my tests.
I tend towards green.
Which one?
Sky green is best green.
Bisexual lighting is peak
Preach it brother!
#00FF00
Sear my eyes with beautiful perfect green.
#ffd0aa
i always associate it with melon (cantaloupe). And melons are nice, sweet fruits.
As I wrote this, I didn't read that it was about light... #fca4a4 sweet pink, kinda like salmon but more red on the Hue slider. I use it as my brand color! Even though I don't really use it much.
#F00 is vague (there's probably some standard that I don't know). Can you give us a wavelength?
I like short yet visible wavelengths and the shade between blue and green (around about 525nm I believe). So Purple and greenish blue.
Nope, standard hexcode (# FF 00 00 in case its a rendering issue) The Fs mean the highest output of red light, 00 green light and 00 blue light.
Not sure if this is technically correct but I'm certain its more or less right
But is there a precise wavelength that it is supposed to have? Obviously different monitors will display them differently.
#F00 is a shorthand for #ff0000. I understand what you mean but it references a composition of the brightness of three LEDs on a screen not a colour of light which is when using a screen always just red green and blue in varying quantities.
No idea, sorry, maybe you can look it up in Wikipedia or any hexcode color search site/app I think. I have an app and my Hue stuff mainly so I just experiment with that and save whatever I want to use