Red object is one that absorb other range of spectrum but Red light.
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.
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.
Red light shining on an object that reflects primarily red light will be red
The reason behind the difference in color between purple light and red light is due to their different wavelengths. Purple light has a shorter wavelength and higher frequency, while red light has a longer wavelength and lower frequency. This difference in wavelength causes our eyes to perceive them as different colors.
The object is reflecting red light. When we see an object as red, it appears that color because it is reflecting red light and absorbing other colors in the visible light spectrum.
A red object reflects red light and absorbs other colors of light. When white light shines on a red object, all the colors of the spectrum are absorbed by the object except for red, which is reflected back to our eyes.
The object absorbs all colors of light except for red, which is reflected off the object and is what we perceive as the color red.
A transparent red object would transmit red light while absorbing other colors of light.
The white object will appear red because all colors of light are absorbed by the object except for red and cyan. The red light is reflected to our eyes, resulting in the object appearing red.
No, under green light a red object will still appear red. This is because the color of an object is determined by the wavelengths of light it reflects, and green light does not change the wavelengths that a red object reflects.
For an object to appear red, it must absorb all other colors of light and reflect red light waves. The object's surface reflects only the red light waves, while absorbing all other colors. This selective reflection is what gives the object its red appearance.
The red object would appear red under a red light because objects primarily reflect the color of light that is shining on them. Since red light contains mainly red wavelengths, the object would still reflect red light and appear red.