A red Apple Is not red !!!

[Quasar44]

You see an apple and you see it’s red . So you think ..it’s a red apple ..no big deal

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

You’re seeing the “ rejected color “that was kicked out . The red was scattered out !!!

White light has all the colors
Black light has zero colors

If you close all light sources then you only see everything dark as no white light gets in

 

[JoeMoma]

Science and MJ is not a good combination.

 

[BULLDOG]

You see an apple and you see it’s red . So you think ..it’s a red apple ..no big deal

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

You’re seeing the “ rejected color “that was kicked out . The red was scattered out !!!

White light has all the colors
Black light has zero colors

If you close all light sources then you only see everything dark as no white light gets in

Thank you for reminding us all of what we learned in the 5th grade.

 

[sparky]

One fish two fish red fish blue fish.....

~S~

 

[xband]

Granny Smith apples are green and never turn red. Eat an apple pie, chances are Granny Smith, tart and firm.

 

[JoeMoma]

So a black object is actually white and a white object is actually black. Well damn!

 

[itfitzme]

You see an apple and you see it’s red . So you think ..it’s a red apple ..no big deal

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

You’re seeing the “ rejected color “that was kicked out . The red was scattered out !!!

White light has all the colors
Black light has zero colors

If you close all light sources then you only see everything dark as no white light gets in

In color theory, you have "additive color" and "subtractive color."

Light is additive color: You add colors to get to white. Your "Primary colors" from which you get all other colors are Red, Green, and Blue. When you blend red, green, and blue light, you see the appearance of white light. Notice that between RGB, you can see Cyan, Magenta, and Yellow, and then you get to the center with white light.

Pigments are the reverse, subtractive color: You subtract colors to get to white. The Primary colors here Cyan, Yellow, and Magenta. When you blend cyan, yellow, and magenta, you get closer to black. Notice between them, we can see our old primary colors Red, Green, and Blue, and in the center is black.

You might be wondering why printers use CMY and K/black ink. Usually mixing these colors on white paper doesn't get you close enough to a good, dark black, so printers include CMYK, cyan, magenta, yellow, and black ink. …and most of the time, even "black" printed on white paper will just be a very, very dark grey compared to true black, but it's better than just mixing the CMY inks

What are the differences between the colours of light and the colours of pigments? - Quora

.

 

[Quasar44]

You see an apple and you see it’s red . So you think ..it’s a red apple ..no big deal

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

You’re seeing the “ rejected color “that was kicked out . The red was scattered out !!!

White light has all the colors
Black light has zero colors

If you close all light sources then you only see everything dark as no white light gets in

Thank you for reminding us all of what we learned in the 5th grade.

Many don’t remember and you’re starting to really irritate the hell out of me

 

[Quasar44]

I post basic High School science !!
Helps me remember

 

[JoeMoma]

You see an apple and you see it’s red . So you think ..it’s a red apple ..no big deal

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

You’re seeing the “ rejected color “that was kicked out . The red was scattered out !!!

White light has all the colors
Black light has zero colors

If you close all light sources then you only see everything dark as no white light gets in

In color theory, you have "additive color" and "subtractive color."

Light is additive color: You add colors to get to white. Your "Primary colors" from which you get all other colors are Red, Green, and Blue. When you blend red, green, and blue light, you see the appearance of white light. Notice that between RGB, you can see Cyan, Magenta, and Yellow, and then you get to the center with white light.

Pigments are the reverse, subtractive color: You subtract colors to get to white. The Primary colors here Cyan, Yellow, and Magenta. When you blend cyan, yellow, and magenta, you get closer to black. Notice between them, we can see our old primary colors Red, Green, and Blue, and in the center is black.

You might be wondering why printers use CMY and K/black ink. Usually mixing these colors on white paper doesn't get you close enough to a good, dark black, so printers include CMYK, cyan, magenta, yellow, and black ink. …and most of the time, even "black" printed on white paper will just be a very, very dark grey compared to true black, but it's better than just mixing the CMY inks

What are the differences between the colours of light and the colours of pigments? - Quora

.

The OP is confusing additive colors subtractive colors.

 

[JoeMoma]

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

The apple is really red because it reflects red light and absorbs the other colors.

 

[Quasar44]

You see an apple and you see it’s red . So you think ..it’s a red apple ..no big deal

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

You’re seeing the “ rejected color “that was kicked out . The red was scattered out !!!

White light has all the colors
Black light has zero colors

If you close all light sources then you only see everything dark as no white light gets in

In color theory, you have "additive color" and "subtractive color."

Light is additive color: You add colors to get to white. Your "Primary colors" from which you get all other colors are Red, Green, and Blue. When you blend red, green, and blue light, you see the appearance of white light. Notice that between RGB, you can see Cyan, Magenta, and Yellow, and then you get to the center with white light.

Pigments are the reverse, subtractive color: You subtract colors to get to white. The Primary colors here Cyan, Yellow, and Magenta. When you blend cyan, yellow, and magenta, you get closer to black. Notice between them, we can see our old primary colors Red, Green, and Blue, and in the center is black.

You might be wondering why printers use CMY and K/black ink. Usually mixing these colors on white paper doesn't get you close enough to a good, dark black, so printers include CMYK, cyan, magenta, yellow, and black ink. …and most of the time, even "black" printed on white paper will just be a very, very dark grey compared to true black, but it's better than just mixing the CMY inks

What are the differences between the colours of light and the colours of pigments? - Quora

.

The OP is confusing additive colors subtractive colors.

I am talking about white light

 

[Quasar44]

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

The apple is really red because it reflects red light and absorbs the other colors.

The red is the rejected light !!!

 

[norwegen]

You see an apple and you see it’s red . So you think ..it’s a red apple ..no big deal

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

You’re seeing the “ rejected color “that was kicked out . The red was scattered out !!!

White light has all the colors
Black light has zero colors

If you close all light sources then you only see everything dark as no white light gets in

This is good to know. Next time I'm shopping for apples, I'll look for the black, blue-green, blue-violet, brick, brown, burnt orange, burnt sienna, cadet blue, cerulean, chestnut, cornflower, carnation pink, dandelion, forest green, gold, goldenrod, gray, green, green-yellow, indigo, lavender, magenta, mahogany, melon, orange, orchid, olive green, pacific blue, peach, periwinkle, pink, plum, potter orange, raw sienna, red-orange, red-violet, salmon, scarlet, sea green, sepia, silver, sky blue, spring green, tan, turquoise, turquoise-blue, violet, violet-red, white, wisteria, yellow, yellow-green, yellow-orange ones.

 

[JoeMoma]

I am talking about white light

You are also saying a red apple isn't really red.

 

[Quasar44]

You see an apple and you see it’s red . So you think ..it’s a red apple ..no big deal

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

You’re seeing the “ rejected color “that was kicked out . The red was scattered out !!!

White light has all the colors
Black light has zero colors

If you close all light sources then you only see everything dark as no white light gets in

This is good to know. Next time I'm shopping for apples, I'll look for the black, blue-green, blue-violet, brick, brown, burnt orange, burnt sienna, cadet blue, cerulean, chestnut, cornflower, carnation pink, dandelion, forest green, gold, goldenrod, gray, green, green-yellow, indigo, lavender, magenta, mahogany, melon, orange, orchid, olive green, pacific blue, peach, periwinkle, pink, plum, potter orange, raw sienna, red-orange, red-violet, salmon, scarlet, sea green, sepia, silver, sky blue, spring green, tan, turquoise, turquoise-blue, violet, violet-red, white, wisteria, yellow, yellow-green, yellow-orange ones.

No lol
Just be aware that your rods and cones are deceiving

 

[Quasar44]

I am talking about white light

You are also saying a red apple isn't really red.

Yes !!
You’re only seeing the “ kicked out light “

 

[norwegen]

You see an apple and you see it’s red . So you think ..it’s a red apple ..no big deal

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

You’re seeing the “ rejected color “that was kicked out . The red was scattered out !!!

White light has all the colors
Black light has zero colors

If you close all light sources then you only see everything dark as no white light gets in

This is good to know. Next time I'm shopping for apples, I'll look for the black, blue-green, blue-violet, brick, brown, burnt orange, burnt sienna, cadet blue, cerulean, chestnut, cornflower, carnation pink, dandelion, forest green, gold, goldenrod, gray, green, green-yellow, indigo, lavender, magenta, mahogany, melon, orange, orchid, olive green, pacific blue, peach, periwinkle, pink, plum, potter orange, raw sienna, red-orange, red-violet, salmon, scarlet, sea green, sepia, silver, sky blue, spring green, tan, turquoise, turquoise-blue, violet, violet-red, white, wisteria, yellow, yellow-green, yellow-orange ones.

No lol
Just be aware that your rods and cones are deceiving

No, I think I really am low on oil.

 

[esalla]

You see an apple and you see it’s red . So you think ..it’s a red apple ..no big deal

However you’re not seeing it’s true colors !!
What your eyes are telling you Is not the real color .
The apple really is not red

You’re seeing the “ rejected color “that was kicked out . The red was scattered out !!!

White light has all the colors
Black light has zero colors

If you close all light sources then you only see everything dark as no white light gets in

LOL how come apples come in many different colors doofus

 

[Quasar44]

The absorb light you don’t see with your eyes