When light waves strike a blue object, the object absorbs most of the colors in the light spectrum except for blue. Blue light waves are reflected off the object, giving it its blue color.
The yellow object absorbs most of the light and reflects yellow light. White light is a combination of different colors, and the yellow object absorbs all colors except yellow, which is what we see.
When white light hits an object, the object absorbs certain colors of light and reflects others. The colors that are reflected off the object are what we perceive as the color of the object.
Basically three things can happen to light as it strikes an object. It can be reflected, absorbed, or it can pass through. For simplicity, assume the object is not transparent; in that case, any light that is not reflected is absorbed.
You see the colors of light that are reflected off the object. The colors you see depend on the wavelengths of light that the object reflects. For example, if an object reflects green light and absorbs all other colors, you will perceive the object as green.
When light hits a green object, the object absorbs all the colors in the light spectrum except for green. Green is reflected off the object, which is why we perceive it as green. This reflection is what gives the object its color.
The yellow object absorbs most of the light and reflects yellow light. White light is a combination of different colors, and the yellow object absorbs all colors except yellow, which is what we see.
When white light hits an object, the object absorbs certain colors of light and reflects others. The colors that are reflected off the object are what we perceive as the color of the object.
Basically three things can happen to light as it strikes an object. It can be reflected, absorbed, or it can pass through. For simplicity, assume the object is not transparent; in that case, any light that is not reflected is absorbed.
it reflects violet and absorbs the other colors
You see the colors of light that are reflected off the object. The colors you see depend on the wavelengths of light that the object reflects. For example, if an object reflects green light and absorbs all other colors, you will perceive the object as green.
When light hits a green object, the object absorbs all the colors in the light spectrum except for green. Green is reflected off the object, which is why we perceive it as green. This reflection is what gives the object its color.
When all colors are absorbed by an object, it appears black to our eyes. This is because black is the absence of any reflected light. The object absorbs all incoming light, allowing no colors to be reflected back.
When red light shines on a red object, the object will reflect the red light and appear red. If white light shines on a red object, the object will absorb all colors except red, which it will reflect, making it appear red as well.
The green object absorbs all colors of light except green, which it reflects. When white light hits the green object, the green wavelengths are reflected into our eyes, making the object appear green.
When white light hits a gray object, the object absorbs most of the colors in the light spectrum and reflects a combination of all colors back to our eyes. This causes the object to appear gray, as it lacks a dominant color hue. Gray objects reflect light equally across the visible spectrum.
An object appears yellow when it reflects mostly yellow light and absorbs other colors of light. This happens because of the object's surface properties and the interactions of light with its atoms and molecules.
The object absorbs most colors in the white light spectrum except for red, which is reflected. This reflected red light is what we perceive with our eyes as the object's color.