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No, blue and red visible light have different wavelengths. if you see the rainbow, blue and red can been seen on separate stripes which means they have different wavelengths.
They are not really red and blue. This is seen in preserved animals (and cadavers) and in drawings to show which are higher in oxygen (red) and lower (blue). In general, you also can see than veins are shown in blue and arteries are red.
The light stripes are regions of high clouds, and the dark stripes are regions where we can see down to deeper, darker clouds.
The light stripes are regions of high clouds, and the dark stripes are regions where we can see down to deeper, darker clouds.
See related question - that should answer the question.
The lights of red and blue reflect off of the object into your retina and the rods and cones depict what colors your see.
Green (home) or black (visitor) with red, and white stripes at the sides. See related links for some shots on the uniform.
A white shirt is, basically, reflecting all colours of the electromagnetic spectrum which it is exposed to. So for white light it is reflecting red, orange, yellow, green, blue, indigo, violet. If you only expose it to red light (with a wavelength of ~650nm), it will reflect only that light. Therefore, the white shirt will appear red.
It looks purple in colour. So let's see: You are wearing a blue shirt and a dress of some other colour, have I got this right? If the shirt is truly pure blue and it is hit by pure red light it will appear black. I can't answer for the dress, because its colour is not stated.
Rather the opposite. The shirt absorbs other colours, and reflects the blue light, which is what you see.
because the light reflect of the blue shirt and can make ur eyes even look blue
No, blue and red visible light have different wavelengths. if you see the rainbow, blue and red can been seen on separate stripes which means they have different wavelengths.
If a grasshopper with red stripes mates with a grasshopper of yellow stripes, there is a ratio of phenotypes present. A 75-25 ratio would be expected of red to yellow stripes.
Well, why do you call it a red shirt ? Could it be because it absorbs all colors of light except red, so that when white light shines on it, all colors except red soak into the shirt, and red is the only light left to travel from the shirt to your eye ? If that is so, then what happens if no red light shines on the shirt ? Is there any light left to travel to your eye ? No ? Well then, what color do you see if no light travels from the shirt to your eye ? I hope Socrates would be proud.
9 alternating white and blue stripes. See related link for picture.
It is blue, white and red in three vertical bands. The blue is nearer to the mast.
Light that hits the shirt absorbs most of the color and reflects another color. For example, light hits a your shirt. It absorbs all of your colors except one (red, orange, yellow, blue, indigo, purple) and reflects green. So what everybody (who can see color) will see is green.