It's called "A Blue Object" because when light of many colors falls on it, it reflects the
blue light toward your eyes and absorbs all the other colors, including yellow.
So if yellow light is the only light falling on it, the light is all absorbed, none is reflected
to your eyes, and the object appears black.
When shining a green object onto a yellow light, the green object would absorb most of the yellow light while reflecting the green wavelengths. This would make the green object appear even brighter and more vibrant due to the contrast created by the yellow light.
Dark green.A more descriptive answer:It depends on the exact spectra the light emits, not just what it looks to us.If the light combines red and green wavelengths, then the green object will appear green, because of the green wavelength. The object may have a yellowish tinge because of small reflection of the red wavelength.If the light is spectral yellow and not just red + green, then the green object will appear a much darker green maybe with a slight yellow or dark-yellow tinge because of, again, small reflection of dominant yellow wavelength.
In red light, an orange object will appear darker and less vibrant compared to how it would appear in white light. The orange color has components of red and yellow, so the red light will emphasize the red tones in the object, making it appear more reddish-brown or even brownish, depending on the intensity of the red light.
grey
It would look cyan because the colors would be filtered.
Black
It's called "A Blue Object" because when light of many colors falls on it, it reflects the blue light toward your eyes and absorbs all the other colors, including yellow. So if yellow light is the only light falling on it, the light is all absorbed, none is reflected to your eyes, and the object appears black.
It's called "A Blue Object" because when light of many colors falls on it, it reflects the blue light toward your eyes and absorbs all the other colors, including yellow. So if yellow light is the only light falling on it, the light is all absorbed, none is reflected to your eyes, and the object appears black.
Yellow light is made of primary colors red and green. Yellow objects absorb the blue light and reflect the red and green, so we see yellow. If I'm wearing a green shirt, the color reflected is Green. All others are obsorbed. Ta-da!
Blue appears black under a yellow light. For example if you have a blue car and you put a yellow light on it will appear black due to the absence of color. The light has nothing to reflect back.
A yellow object under a yellow light will appear very bright and vibrant, as the object will reflect the light in a consistent color. This can potentially make it difficult to differentiate between the object and the surrounding light source.
Light. The 'blue' object absorbs all the white light that collides with is except the 'blue' light, which is relected back up to the environment, including your eyes. Blue is also the best colour if you are a blonde.... it makes your boobs bigger!
Objects that appear blue reflect shorter wavelengths of light, such as blue and violet, while absorbing longer wavelengths like red and orange. On the other hand, objects that appear yellow reflect longer wavelengths, such as yellow and red, and absorb shorter wavelengths like blue and violet. This difference in reflection is due to the specific properties of the object's surface and the colors of light it interacts with.
When shining a green object onto a yellow light, the green object would absorb most of the yellow light while reflecting the green wavelengths. This would make the green object appear even brighter and more vibrant due to the contrast created by the yellow light.
A blue object under white light will appear as blue because it reflects blue light wavelengths and absorbs other colors. The white light contains all the colors of the visible spectrum, but the blue wavelengths are the ones reflected by the object, giving it its blue color.
A green object will appear dark or black under blue light because it does not reflect blue light well. Green objects absorb blue light, resulting in little to no reflection of this color.
It would look like a very, very, very, very yellowy orange.