When a green apple appears black under a red light, it is because the red light does not contain wavelengths that correspond to the green color of the apple. The red light is absorbed by the apple, causing it to appear black as there is no green light being reflected off the surface to be perceived by our eyes. Each color of light corresponds to a specific wavelength, and when the light's wavelength does not match the object's color, the object will appear different.
In red light, a green apple would appear dark or black because red light contains wavelengths that are opposite to green on the color spectrum. This causes green objects to absorb the red light and reflect very little, resulting in a dark appearance.
The red light would be absorbed by the apple and the green color would appear darker as the red light is not reflected. The apple may appear different shades of green or black under the red light, but the overall appearance would depend on the intensity of the red light and the reflective properties of the apple.
A purely green apple would look black under purely red light. If the apple were not purely green, it would look dark red. If the light were not purely red, the apple would look dark green. This is because red light does not reflect off purely green objects, and it is the reflected light which we see.
While the ball would still be green it will appear black. Anything green absorbed all colours except green. The green light is reflected to your eyes which makes it look green. Thus in red light (with no green in it) the red will be absorbed and no green light can be reflected to your eyes so the ball will look black.
The green apple absorbs most colors of light but reflects green light. When white light shines on the apple, its surface absorbs all colors except green, which gets reflected back to our eyes, making the apple appear green.
It will be black because there may not be any green light reflecting the green apple so if theres no light then it will become black
In red light, a green apple would appear dark or black because red light contains wavelengths that are opposite to green on the color spectrum. This causes green objects to absorb the red light and reflect very little, resulting in a dark appearance.
A green apple appears green under white light because its surface absorbs all colors of light except green. Green light is reflected off the apple's surface and then detected by our eyes, making it appear green.
The red light would be absorbed by the apple and the green color would appear darker as the red light is not reflected. The apple may appear different shades of green or black under the red light, but the overall appearance would depend on the intensity of the red light and the reflective properties of the apple.
To make green appear black, shine red light on it. Green absorbs red light, so when red light is shone on green, the green will appear black.
A purely green apple would look black under purely red light. If the apple were not purely green, it would look dark red. If the light were not purely red, the apple would look dark green. This is because red light does not reflect off purely green objects, and it is the reflected light which we see.
Black, or nearly so. The apple reflects only green light, the red filter only lets red light through, so nothing reaches the eye.
While the ball would still be green it will appear black. Anything green absorbed all colours except green. The green light is reflected to your eyes which makes it look green. Thus in red light (with no green in it) the red will be absorbed and no green light can be reflected to your eyes so the ball will look black.
The green apple absorbs most colors of light but reflects green light. When white light shines on the apple, its surface absorbs all colors except green, which gets reflected back to our eyes, making the apple appear green.
The grass would appear black under orange lights because green objects appear black under light that does not include green wavelengths. Orange lights contain little to no green light, causing green objects like grass to absorb most of the light and appear as black.
the same color it is in the light. objects appear the color that they are because they absorb all colors of light except the one that it appears as. it relects that color and your brain sees it as that. thus, if you have a red apple and a green light on it, it would appear to be black or just really dark. because there is no red light for it to reflect and it merely absorbs the green light. so an apple is the same color no matter what. its just the diffrent affects of light that make it seem different colors.
The green object will appear black because it will not reflect any of the blue light shone on it. Green objects primarily absorb blue light, so without any green or red light present, the object will appear dark.