It would look cyan because the colors would be filtered.
When light is shined on a cyan object, it will appear cyan as long as the light source contains both blue and green wavelengths, which are the colors that make up cyan. If the light is white, the cyan object will reflect the blue and green light and thus still appear cyan. However, if the light is only red, the cyan object will appear black because it cannot reflect that color.
You will get Cyan (light blue)
A green object illuminated by blue lights would likely appear to have a bluish hue. The blue light would mix with the green, potentially creating a teal or cyan effect, depending on the intensity of the blue light and the specific shade of green. This color blending occurs because the blue light affects how our eyes perceive the green object. Overall, the object may look less vibrant and more muted than it would under white light.
The color you would see is green because it is created by a mixture of yellow and cyan light, which are the primary colors that result from the subtraction of red and blue from white light.
Primary colours of light are red, blue and green and when combined in the correct intensity they produce white light. The secondary colours of light are magenta, yellow and cyan which result from combinations at the correct frequencies of primary colours.
When light is shined on a cyan object, it will appear cyan as long as the light source contains both blue and green wavelengths, which are the colors that make up cyan. If the light is white, the cyan object will reflect the blue and green light and thus still appear cyan. However, if the light is only red, the cyan object will appear black because it cannot reflect that color.
You would expect to see the object appear cyan in color because the cyan filter would absorb most of the colors in the white light spectrum except for shades of blue and green, which combine to create cyan.
A cyan object will appear black under red light because red light is absorbed by cyan objects. Cyan is a combination of green and blue light, so when only red light is present, there is no light for the cyan object to reflect or absorb.
You will get Cyan (light blue)
It is either green because the colour of light above it is the only colour it allows through like in this case Green light only lets green through or it could be cyan as blue and green make cyan but i think it would be green
When white light strikes a red object, the object would appear red. The object would have reflected the red light within the white light while all other colours would have been absorbed. When blue light strikes a red object, it would appear black as there is no red light in blue light as it is a primary colour. As a result, the blue light would be completely absorbed by the red object. So no light would be reflected from the object. When violet light strikes a red object, it would appear red, as violet is a combination of blue and red light. The blue light would be absorbed while the red light would be reflected. It is good to learn and revise the light spectrum and primary and secondary light colours. Primary light colours are: Red, Green and Blue Secondary light colours are: Yellow, Cyan and Violet The combinations are: Red + Green = Yellow Green + Blue = Cyan Blue + Red = Violet (or Magenta depending on how you have been taught)
Cyan light results. Green and blue and red lights are all primary colors of light. Because red is not part of cyan light, cyan and red light are complementary colors.
The color of the mixture of green and blue light is called cyan.
Cyan (blue)
Cyan is an equal mix of blue and light green.
Mixing cyan and red in the light spectrum will produce white light. Cyan is a combination of blue and green, and when mixed with red (which is opposite of cyan on the color wheel), the three primary colors of light—red, green, and blue—combine to create white light.
A cyan ball would appear dark or dim under green light because cyan is composed of blue and green light, so without the blue light component, the ball would only reflect the green light, resulting in a darker appearance.