| AdamRX | 10-27-2004 12:49 PM |
Doesnt Yellow and green make blue??
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what was I thinking :eek: ...
| Tobey | 10-27-2004 12:54 PM |
you're kidding right? :lol:
| imprezivenycz | 10-27-2004 01:03 PM |
:lol: :lol: :lol:
| Nytmare | 10-27-2004 01:04 PM |
:confused: :huh:
| BurtonCR | 10-27-2004 01:07 PM |
yellow + blue = green
yellow, blue, red = primary colors
yellow, blue, red = primary colors
| Rebellion | 10-27-2004 01:13 PM |
someone needs to go back to elementary art class.
| revhigh96 | 10-27-2004 01:14 PM |
actually the primary colors are red green and blue lol
| stevessti | 10-27-2004 01:20 PM |
[QUOTE=revhigh96]actually the primary colors are red green and blue lol[/QUOTE]
:eek: :huh:
:eek: :huh:
| kennyvb | 10-27-2004 01:26 PM |
excellent
| N'CTRL | 10-27-2004 02:02 PM |
:lol:
[IMG]http://www.pureinsight.org/pi_images/2003-8-10-threecolors1.jpg[/IMG]
[IMG]http://www.pureinsight.org/pi_images/2003-8-10-threecolors1.jpg[/IMG]
| MattDell | 10-27-2004 02:05 PM |
:huh:
| yertle | 10-27-2004 02:13 PM |
Yellow already has green in it. And yeah, primary colors will be red, green, and blue. You need to remember that you're not mixing paint here, you're mixing light. If you've ever fooled around with different colored lights, you'd know that they mix differently than you might expect.
That last picture is completely wrong. When you mix all 3 colors, you get white. Obviously, a lack of light (no colors) is black, so the center would need to be white.
I think if you shine yellow through green you'll just get green. Think of it this way... if you have something where if you shine white light through it you get green, this means it's blocking the red and blue light. If yellow is both red and green, and you block the red, you get green.
Dunno if this is right, but some of these comments (originator's definitely included) are just plain silly =P
That last picture is completely wrong. When you mix all 3 colors, you get white. Obviously, a lack of light (no colors) is black, so the center would need to be white.
I think if you shine yellow through green you'll just get green. Think of it this way... if you have something where if you shine white light through it you get green, this means it's blocking the red and blue light. If yellow is both red and green, and you block the red, you get green.
Dunno if this is right, but some of these comments (originator's definitely included) are just plain silly =P
| pezman04wrx | 10-27-2004 02:31 PM |
And only to add insult to injury, as my old art teacher always used to say "There is no black in nature ... It's payne's grey ..." :huh: ... Always loved arguing over that one ... :lol:
| jlitch | 10-27-2004 02:38 PM |
actually, the picture is correct...
anyone who thinks you can make yellow mixing red, blue, or green is, well nevermind.
PRIMARY COLORS: RED, BLUE, YELLOW
and all colors mixed together do get black, or very very dark brown - not WHITE - you can never mix colors to get WHITE!!!
anyone who thinks you can make yellow mixing red, blue, or green is, well nevermind.
PRIMARY COLORS: RED, BLUE, YELLOW
and all colors mixed together do get black, or very very dark brown - not WHITE - you can never mix colors to get WHITE!!!
| Lachlan | 10-27-2004 02:40 PM |
^^
Once again we go back to the fact that we're mixing light, not paint. Big difference.
Once again we go back to the fact that we're mixing light, not paint. Big difference.
| yertle | 10-27-2004 02:46 PM |
I wish you'd bothered to read my entire post. As I said, mixing LIGHT is completely different from mixing PAINT.
| paperchasin | 10-27-2004 02:47 PM |
Ouch, is there no nice way answer such a simple question?
| Brady | 10-27-2004 02:55 PM |
ugh ... ok, i'll break this down. The primary colors of light are Red, Green, and Blue as has been mentioned.
If you mix Red and Green, you get Yellow
If you mix Red and Blue, you get Magenta
If you mix Blue and Green, you get Cyan
Thus, per the original question .... Yellow and Green would just get a Slightly more yellow green.
If you want it to turn blue from the green, you'll need a blue condom with a hint of red (or slightly magenta condom). But this really isn't going to work very well regardless
If you mix Red and Green, you get Yellow
If you mix Red and Blue, you get Magenta
If you mix Blue and Green, you get Cyan
Thus, per the original question .... Yellow and Green would just get a Slightly more yellow green.
If you want it to turn blue from the green, you'll need a blue condom with a hint of red (or slightly magenta condom). But this really isn't going to work very well regardless
| yertle | 10-27-2004 02:59 PM |
Probably fairly irrelevant by now, but Brady, don't you think yellow with a green filter would produce green? I thought it would block the red out of the yellow.
| hph | 10-27-2004 03:13 PM |
Brady's right, for RBG color schemes on computer monitors -- you can prove that for yourself with any drawing program that lets you make colors with RGB sliders.
However.
If we're talking about lightbulbs, rather than pixels and color guns, things don't necessarily follow this pattern. Colors of light, after all, are specific wavelengths of EM radiation. If you start with white light (a mix of wavelengths that looks "white" to us), and apply a green filter, in principle you could be filtering out all the colors (wavelengths) except the green one(s). Then, if you apply a yellow filter, it'll take out the green and, because the yellow's already gone, be left with nothing. This, of course, would require very high-quality filters.
In any case, the discussion of paint colors (reflected light) is completely irrelevant here, as has been noted. What this is about is transmitted light that (I assume) starts out white -- and that isn't quite the same as RGB monitors. HPH
However.
If we're talking about lightbulbs, rather than pixels and color guns, things don't necessarily follow this pattern. Colors of light, after all, are specific wavelengths of EM radiation. If you start with white light (a mix of wavelengths that looks "white" to us), and apply a green filter, in principle you could be filtering out all the colors (wavelengths) except the green one(s). Then, if you apply a yellow filter, it'll take out the green and, because the yellow's already gone, be left with nothing. This, of course, would require very high-quality filters.
In any case, the discussion of paint colors (reflected light) is completely irrelevant here, as has been noted. What this is about is transmitted light that (I assume) starts out white -- and that isn't quite the same as RGB monitors. HPH
| imprezivenycz | 10-27-2004 04:05 PM |
[QUOTE=AdamRX]Has anyone tried putting yellow condoms on the cluster bulbs, since it goes through the green film on the gauges, wouldnt you get blue?[/QUOTE]
look at the thread you started just go buy some indiglo gauges
:huh: :huh:
look at the thread you started just go buy some indiglo gauges
:huh: :huh:
| Diane | 10-27-2004 04:30 PM |
Since My car is a 99 i don't know if this applys to you. There was no green film on the gauges. The lights just have a green condom over them. So if you want blue just swap them out and place the blue condom cover over the bulb, or any other colour.
| DumbUglyDragon | 10-28-2004 02:18 AM |
Just buy the damn blue leds!!!! HAHHAHA!!!
| Subahaulic | 10-28-2004 09:17 AM |
[QUOTE=AdamRX]what was I thinking :eek: ...[/QUOTE]
To answer your question in the the most graphic way --install the blue Tidy-Bowl cleaning solution, pee into it, and observe the miraculous color change! :banana:
To answer your question in the the most graphic way --install the blue Tidy-Bowl cleaning solution, pee into it, and observe the miraculous color change! :banana:
| hph | 10-28-2004 10:57 AM |
Ah, but the Tidy-Bowl experiment is an interesting combination of reflected and transmitted light that begins with a white source (unless you have one of those 1970s avocado-green toilet bowls). My money in on the reflections dominating. HPH
| Brady | 10-28-2004 12:48 PM |
[QUOTE=hph]Brady's right, for RBG color schemes on computer monitors -- you can prove that for yourself with any drawing program that lets you make colors with RGB sliders.
However.
If we're talking about lightbulbs, rather than pixels and color guns, things don't necessarily follow this pattern. Colors of light, after all, are specific wavelengths of EM radiation. If you start with white light (a mix of wavelengths that looks "white" to us), and apply a green filter, in principle you could be filtering out all the colors (wavelengths) except the green one(s). Then, if you apply a yellow filter, it'll take out the green and, because the yellow's already gone, be left with nothing. This, of course, would require very high-quality filters.
In any case, the discussion of paint colors (reflected light) is completely irrelevant here, as has been noted. What this is about is transmitted light that (I assume) starts out white -- and that isn't quite the same as RGB monitors. HPH[/QUOTE]
yeah, i wasn't as sure about filtered light ... and all i could think of for an example of filtered light was my experience with filtered light in a photographic printing setting. now thinking about it more, yeah, a red light through a green filter would essentially appear as there's no light.
However.
If we're talking about lightbulbs, rather than pixels and color guns, things don't necessarily follow this pattern. Colors of light, after all, are specific wavelengths of EM radiation. If you start with white light (a mix of wavelengths that looks "white" to us), and apply a green filter, in principle you could be filtering out all the colors (wavelengths) except the green one(s). Then, if you apply a yellow filter, it'll take out the green and, because the yellow's already gone, be left with nothing. This, of course, would require very high-quality filters.
In any case, the discussion of paint colors (reflected light) is completely irrelevant here, as has been noted. What this is about is transmitted light that (I assume) starts out white -- and that isn't quite the same as RGB monitors. HPH[/QUOTE]
yeah, i wasn't as sure about filtered light ... and all i could think of for an example of filtered light was my experience with filtered light in a photographic printing setting. now thinking about it more, yeah, a red light through a green filter would essentially appear as there's no light.
| NC2.5RS | 10-28-2004 01:27 PM |
The additive primary colors of light are Red, Green, Blue. When combined they create white light. The subtractive colors of light are Cyan, Magenta, and Yellow. When combined, they create black light. It pays to be a film major and be taking Applied Aesthetics. We learn all this ****.
| MU5A5HI | 10-28-2004 04:31 PM |
This thread is amusing. Somewhere I missed something though because I have no idea from any of it what the guy who posted it was really trying to do? Was he trying to change his gauge cluster color?
Anyhow. it doesnt matter too much which spectrum we're talking about because yellow and green mixed together do not make blue in either light or paint.
Anyhow. it doesnt matter too much which spectrum we're talking about because yellow and green mixed together do not make blue in either light or paint.
| AdamRX | 10-28-2004 09:57 PM |
^^^^^right. its been pointed out
| hph | 10-28-2004 10:46 PM |
Except the original post wasn't talking about mixing light, it was talking about unmixing it -- that's what filtering does, and those condoms and other films are filters.
But it's true that yellow and green do not blue make. HPH
But it's true that yellow and green do not blue make. HPH
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