"Orbit" for Orbit Chewing Gum
trot/walk into the light purple/blue circle thing.
Red and blue light will not absorb the same light. Red objects reflect red light and absorb other colors, while blue objects reflect blue light and absorb other colors.
Blue objects absorb wavelengths of light that correspond to other colors on the spectrum, typically orange or yellow. This means blue objects appear blue because they reflect blue light and absorb light of other colors.
If blue light passes through a blue filter, the light will be transmitted through the filter because the filter is designed to allow blue light to pass through while absorbing other colors of light. The blue filter selectively transmits blue light and blocks other colors of light.
No, the color blue does not absorb light. In fact, blue objects appear blue because they reflect blue light and absorb other colors.
The ? and the light blue circle.
No, blue color does not absorb light; instead, it reflects blue wavelengths of light and absorbs other colors. This reflection of blue light is what gives objects their blue color.
Blue light does not change the color of other blue objects, so they will still appear blue under blue light. This is because objects reflect or absorb different wavelengths of light, and blue objects reflect blue light regardless of the light source.
Blue. That's why people call it a "blue surface" ... because any other color of light that hits it is absorbed, and never scattered or reflected to your eye.
Blue light. That's why the glass is called blue.
A blue filter works by selectively absorbing other colors present in the white light and transmitting the blue light. The filter contains molecules that can absorb certain wavelengths of light, allowing only blue light to pass through.
Something appears blue because it reflects blue light while absorbing other wavelengths of light. White light is composed of a combination of all different colors of light, but when an object reflects mostly blue light, our eyes perceive it as blue.