The red light is reflected by the red apple because the apple absorbs all other colors except red, which it reflects back to our eyes. This is why we see the apple as red.
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 red light is absorbed by the red apple, while the green light is reflected. This is because the red apple appears red because it absorbs all colors of light except red, which it reflects.
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.
The red apple absorbs most colors of light but reflects red wavelengths, making it appear red. When light strikes the apple, the pigments in its skin selectively absorb all colors except red, which gets reflected back and detected by our eyes, giving the apple its red color.
A red apple absorbs most colors of light except for red light, which is reflected off the apple's surface. The red color we perceive is the result of the apple absorbing all other colors and reflecting red light.
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 red light is absorbed by the red apple, while the green light is reflected. This is because the red apple appears red because it absorbs all colors of light except red, which it reflects.
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.
The red apple absorbs most colors of light but reflects red wavelengths, making it appear red. When light strikes the apple, the pigments in its skin selectively absorb all colors except red, which gets reflected back and detected by our eyes, giving the apple its red color.
Because the skin of the apple absorbs all wavelengths of visible light EXCEPT red,so the red is the only one left to bounce off of the apple toward your eye.If there's no red wavelengths in the light that hits the apple, then it absorbs ALL ofthe light hitting it, and it appears black to you.
A red apple absorbs most colors of light except for red light, which is reflected off the apple's surface. The red color we perceive is the result of the apple absorbing all other colors and reflecting red light.
We see red when red light reaches the retinas in our eyes. A non-luminous object that looks red is absorbing every color of light that hits it except red light, which it reflects.
When a red light hits a white object, the object reflects most of the red light wavelengths while absorbing others. This selective reflection gives the object its white appearance, as white objects reflect most of the visible light spectrum, including red light.
When red light hits red paper, the paper appears red because it selectively reflects the red light while absorbing other colors. The red pigment in the paper absorbs all colors of light except red, which is reflected back to our eyes, making the paper appear red.
Since the apple is green, it would absorb any light that is not the same color as the apple. In this instance, the apple would appear very dark or even black since there is no green in the red light you are shining on the apple. A popular science experiment involves a shoe box, a piece of colored plastic or glass, a few objects (such as the apple), and a flashlight. If a red apple is being used with a red filter, the apple would appear to be a bright red since the apple is also red. The red filter allows the red color being reflected off the apple to pass through. Switch the filter to a green one, and the apple appears black since the filter effectively filters out all colors except green.
A purely green apple would look black under purely red light. If the apple were not purely green, it would look dark red. If the light were not purely red, the apple would look dark green. This is because red light does not reflect off purely green objects, and it is the reflected light which we see.
When light hits a red object, the object absorbs all colors of light except for red. Red light is reflected off the object and that is what we perceive as the object's color.