Blue.
White light minus magenta light would appear cyan in color. Cyan is the complementary color to magenta, so when magenta light is subtracted from white light, the remaining color is cyan.
White light minus green light would appear as a purplish color. This is because when green light is removed from white light, the remaining color components combine to create a mix of blue and red light, which results in a purplish hue.
White light minus yellow light appears as a bluish color, due to the absence of yellow light in the spectrum. This phenomenon is known as color subtraction or color mixture.
The object will appear white because it reflects all colors of light equally, resulting in a white appearance.
A white card may appear blue in white light due to the phenomenon of color balance or white balance in lighting conditions. Different light sources emit light at varying color temperatures, which can affect how we perceive colors. In this case, the white light may have a cooler color temperature, causing the white card to appear more blue.
White light minus magenta light would appear cyan in color. Cyan is the complementary color to magenta, so when magenta light is subtracted from white light, the remaining color is cyan.
orange
White light minus green light would appear as a purplish color. This is because when green light is removed from white light, the remaining color components combine to create a mix of blue and red light, which results in a purplish hue.
White light minus yellow light appears as a bluish color, due to the absence of yellow light in the spectrum. This phenomenon is known as color subtraction or color mixture.
White light minus green light would appear as a magenta or pink color. This is because when green light is subtracted from white light, the remaining combination of red and blue light creates the magenta/pink hue.
white
The object will appear white because it reflects all colors of light equally, resulting in a white appearance.
A white card may appear blue in white light due to the phenomenon of color balance or white balance in lighting conditions. Different light sources emit light at varying color temperatures, which can affect how we perceive colors. In this case, the white light may have a cooler color temperature, causing the white card to appear more blue.
A slight shade of burgandy
The color of the object that you see will depend on the wavelengths of light that are reflected. Objects appear a certain color because they absorb certain wavelengths of light and reflect others. White light contains all colors of the spectrum, so the color you see is the result of the wavelengths that are reflected by the object.
White is the most reflective color of light. It reflects all the wavelengths of visible light, making it appear bright and highly reflective.
If the lights from all visible wavelengths are combined, they appear to be a white color.