In green light, a red book would appear black. Green light does not contain any red wavelengths to reflect off the red book, so it would absorb most of the green light and appear black instead.
A red object appears dark and almost black in green light because red objects absorb green light and do not reflect any light back to our eyes.
When a green filter is placed together with a red filter, the filters will absorb and block out certain wavelengths of light. The green filter will absorb most colors except green, while the red filter will absorb most colors except red. The overlapping areas of green and red light that are able to pass through both filters will produce a dark color, likely appearing black or very dark red.
A green object looks black in red light because the object is not able to reflect or absorb red light effectively, causing it to appear dark. Since green objects absorb red light and reflect green light, they do not reflect any light in red light, resulting in the object appearing black.
A green light makes a red object appear black, because red objects absorb green light and do not reflect any visible light back.
In green light, a red book would appear black. Green light does not contain any red wavelengths to reflect off the red book, so it would absorb most of the green light and appear black instead.
black, dark green, dark red, and other dark colors
A red object appears dark and almost black in green light because red objects absorb green light and do not reflect any light back to our eyes.
When a green filter is placed together with a red filter, the filters will absorb and block out certain wavelengths of light. The green filter will absorb most colors except green, while the red filter will absorb most colors except red. The overlapping areas of green and red light that are able to pass through both filters will produce a dark color, likely appearing black or very dark red.
A green object looks black in red light because the object is not able to reflect or absorb red light effectively, causing it to appear dark. Since green objects absorb red light and reflect green light, they do not reflect any light in red light, resulting in the object appearing black.
A green light makes a red object appear black, because red objects absorb green light and do not reflect any visible light back.
It would be black becasue the object would absorb all the red light, and there would be no green light for it to reflect
A green object appears black when viewed through a red filter because the red filter absorbs green light, preventing it from passing through. Since the green light is blocked, the object appears dark or black because there is no green light reflecting off of it to be seen.
Blue and green are colors that absorb red light. This means that objects with a blue or green surface will appear to absorb red light and reflect the remaining visible wavelengths.
No, yellow does not absorb green and red light. Instead, yellow reflects or transmits a mixture of red and green wavelengths, which our eyes perceive as the color yellow.
A cucumber would appear green in green light, white in white light, and dark in red light as it would absorb most of the red light.
If you shine a green light on a red cap, the cap will likely appear dark or black because red objects absorb green light and do not reflect it back to our eyes. This is due to the color mixing phenomenon where red and green cancel each other out.