Because white light contains all the colours of the spectrum and objects of one colour absorb the other colours only reflecting back the colour that they are. This can be shown by the fact that Black reflects back none of the spectrum so no light is reflected back and so appears "black" whilst white reflects back all of the spectrum so it appears white.
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.
The shirt will reflect blue light, as objects appear in a certain color because they reflect that color of light and absorb the rest.
White reflects light better than black. White objects reflect most of the light that strikes them, while black objects absorb most of the light and reflect very little, making them appear dark.
Objects appear white when they reflect all visible wavelengths of light equally, resulting in a combination of all colors that our eyes perceive as white. White objects do not absorb any specific wavelengths of light, making them appear colorless.
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.
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.
The shirt will reflect blue light, as objects appear in a certain color because they reflect that color of light and absorb the rest.
White reflects light better than black. White objects reflect most of the light that strikes them, while black objects absorb most of the light and reflect very little, making them appear dark.
Objects appear white when they reflect all visible wavelengths of light equally, resulting in a combination of all colors that our eyes perceive as white. White objects do not absorb any specific wavelengths of light, making them appear colorless.
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.
Objects appear white because they reflect all wavelengths of visible light equally, giving them a neutral appearance. White objects do not absorb any specific colors of light, which is why they appear white to the human eye.
Objects appear as different colors when white light shines on them because they absorb certain wavelengths of light and reflect others. The color we perceive is the result of the wavelengths of light that are reflected back to our eyes. This information is processed by our brain to give us the perception of color.
Objects that reflect all colors of light appear white because they are reflecting the entire visible spectrum equally. When all colors are reflected, they combine to create white light. This is in contrast to objects that absorb all colors, which appear black because they are not reflecting any light.
A white object would reflect more light compared to a black object. White objects reflect most of the wavelengths of visible light, making them appear brighter, while black objects absorb most of the light, appearing darker.
The white crayon would still appear white under blue light. This is because white objects reflect all colors of light equally, so the blue light would contribute to the overall brightness of the white crayon without changing its color.
Different objects appear in different colors because they reflect and absorb light differently. The color of an object is determined by the wavelengths of light it reflects. When white light hits an object, certain wavelengths are absorbed and others are reflected, which our eyes perceive as color.
Materials absorb or reflect light based on their specific properties. Objects that appear white reflect most light, while objects that appear black absorb most light. The color of objects is determined by which wavelengths of light are absorbed and which are reflected. Additionally, the surface texture and composition of a material can influence how it interacts with light.