The red apple absorbs most of the colors in the white light spectrum, except for red. The red color is reflected off the surface of the apple, which is what we perceive with our eyes. This is why the apple appears red when white light strikes it.
When white light hits a red apple, the apple absorbs all the colors in the white light except for red. The red color is reflected off the apple and that is what we see. The other colors are absorbed by the apple's pigments.
When white light strikes a black object, the object absorbs most of the light and reflects very little, which is why the object appears black. This is because black objects absorb most of the light across the visible spectrum.
When white light strikes a red shirt, the shirt absorbs most of the colors in the light spectrum except for red. The red color is reflected off the shirt's surface, which our eyes perceive. This is why the shirt appears red to us.
The green apple absorbs most colors of light but reflects green light. When white light shines on the apple, its surface absorbs all colors except green, which gets reflected back to our eyes, making the apple appear green.
When white light strikes a green opaque object, the object absorbs all colors of light except green. Green light is reflected off the object and that is what our eyes perceive as the color of the object.
When white light hits a red apple, the apple absorbs all the colors in the white light except for red. The red color is reflected off the apple and that is what we see. The other colors are absorbed by the apple's pigments.
the light perceives which is the one that is reflected, then most gets absorbed with whats rest of the light .
When white light strikes a black object, the object absorbs most of the light and reflects very little, which is why the object appears black. This is because black objects absorb most of the light across the visible spectrum.
Depending on the object, it may be reflected, absorbed, refracted or internally reflected.
When white light strikes a red shirt, the shirt absorbs most of the colors in the light spectrum except for red. The red color is reflected off the shirt's surface, which our eyes perceive. This is why the shirt appears red to us.
The green apple absorbs most colors of light but reflects green light. When white light shines on the apple, its surface absorbs all colors except green, which gets reflected back to our eyes, making the apple appear green.
The waves whose frequencies belong to that colour are reflected while other frequencies are absorbed.
When white light strikes a green opaque object, the object absorbs all colors of light except green. Green light is reflected off the object and that is what our eyes perceive as the color of the object.
When white light strikes a red object, the object absorbs most colors of the light spectrum but reflects the red wavelengths. This is because objects appear a certain color due to the specific wavelengths of light they reflect.
White light is composed of various colors, including blue. When white light strikes blue pigment, the blue pigment absorbs most colors of light except for blue, which is reflected back to our eyes, making the pigment appear blue.
Apple blossoms are typically white or pale pink in color.
When visible light strikes an object, it can be absorbed, transmitted, or reflected. The color of the object is determined by which wavelengths of visible light are reflected back to our eyes. Objects that appear white reflect most of the visible light, while objects that appear black absorb most of the visible light.