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.
Since the apple is green, it would absorb any light that is not the same color as the apple. In this instance, the apple would appear very dark or even black since there is no green in the red light you are shining on the apple. A popular science experiment involves a shoe box, a piece of colored plastic or glass, a few objects (such as the apple), and a flashlight. If a red apple is being used with a red filter, the apple would appear to be a bright red since the apple is also red. The red filter allows the red color being reflected off the apple to pass through. Switch the filter to a green one, and the apple appears black since the filter effectively filters out all colors except green.
Green objects under a green light would appear brighter and more vibrant as the green light would enhance the color by adding more green wavelengths to what is already there. The objects would likely blend in with the background if the light is the same shade of green.
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.
Green would appear black or very dark under magenta light because magenta light contains no green wavelengths to reflect back. Therefore, without green light to reflect, green objects would not be visible and would appear dark or black.
The blue sky would appear green under green light because the green light would dominate the color seen by our eyes. The color of the sky is determined by the light that is reflected off of it, so when green light is shone on a blue sky, the green light will be the dominant color that is reflected.
Since the apple is green, it would absorb any light that is not the same color as the apple. In this instance, the apple would appear very dark or even black since there is no green in the red light you are shining on the apple. A popular science experiment involves a shoe box, a piece of colored plastic or glass, a few objects (such as the apple), and a flashlight. If a red apple is being used with a red filter, the apple would appear to be a bright red since the apple is also red. The red filter allows the red color being reflected off the apple to pass through. Switch the filter to a green one, and the apple appears black since the filter effectively filters out all colors except green.
Green objects under a green light would appear brighter and more vibrant as the green light would enhance the color by adding more green wavelengths to what is already there. The objects would likely blend in with the background if the light is the same shade of green.
BLACK because the apple absorbs the blue light and there would be no light to reflect.
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.
It would be black becasue the object would absorb all the red light, and there would be no green light for it to reflect
Green would appear black or very dark under magenta light because magenta light contains no green wavelengths to reflect back. Therefore, without green light to reflect, green objects would not be visible and would appear dark or black.
The blue sky would appear green under green light because the green light would dominate the color seen by our eyes. The color of the sky is determined by the light that is reflected off of it, so when green light is shone on a blue sky, the green light will be the dominant color that is reflected.
All plants and vegetables absorbs visible light and reflects the colours that we see, so green trees reflect green light, yellow meadows absorb all colours except yellow. A red apple would absorb most of any blue light, but if there were no other lights from the spectrum for it to reflect we would see little, remember there are 7 visible colours making up white light these are - Red, Orange, Yellow, Green, Blue, Indigo, Violet.
The red tulip would appear darker, almost black, under the green light due to the color absorption properties. The green leaves would appear bright and vivid as they reflect the green light. The contrast between the red tulip and green leaves would be enhanced under the green light.
black
No