A pure green object would reflect the green third of the spectrum, and absorb the red and blue portions. Magenta light is composed of red and blue waves so they would be absorbed by the green object. Therefore, in theory, a green object would appear neutral, virtually black. But this assumes that all the colors are very pure and perfectly balanced. This is unlikely, so the object would most likely look near neutral with some color skewing one way or another.
An opaque object that absorbs green light would appear magenta, which is the complementary color to green. This is because the object absorbs green light and reflects red and blue wavelengths, which combine to produce magenta.
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.
A blue object would appear dark or almost black in magenta lights because magenta does not contain any blue light to reflect off the object, causing it to absorb most of the light.
Magenta glass transmits red and blue light, but absorbs green light. As a result, the transmitted light would appear as a mix of red and blue, creating a magenta hue.
The red light would be absorbed by the green object and the object would appear dark. The green object reflects green light and absorbs other colors.
An opaque object that absorbs green light would appear magenta, which is the complementary color to green. This is because the object absorbs green light and reflects red and blue wavelengths, which combine to produce magenta.
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.
A blue object would appear dark or almost black in magenta lights because magenta does not contain any blue light to reflect off the object, causing it to absorb most of the light.
Magenta glass transmits red and blue light, but absorbs green light. As a result, the transmitted light would appear as a mix of red and blue, creating a magenta hue.
The red light would be absorbed by the green object and the object would appear dark. The green object reflects green light and absorbs other colors.
A green object under green light would appear its original color and shade of green. When an object is illuminated by light of the same color, no new colors are absorbed or reflected, resulting in the object appearing unchanged.
It would be black becasue the object would absorb all the red light, and there would be no green light for it to reflect
Brown. Here's why. Green is a combination of yellow and cyan (aka blue). Red is close to magenta; it is magenta with a little yellow mixed in. Thus green + red is a combination of all three primary colors: magenta, yellow and cyan. The combination would thus lead to a brownish color, since browns are what you tend to get when you mix all three primary colors. Short primer. Magenta, yellow and cyan (blue) are primary colors. Orange is an equal mix of magenta and yellow. Green is an equal mix of yellow and cyan. Red is a mix of orange and magenta.
A green object will appear black if only blue light is shone on it because blue light is absorbed by the object and green is the complementary color of blue.
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.
The color observed would be red. Magenta is a combination of red and blue light, while yellow is a combination of red and green light. When magenta and yellow light are added together, the red components mix to create the observed red color.
Not much different. It probably would just have this green-ish tint to it.