Because it is blue
Black, because the blue light would be absorbed into the object's pigment and as there is no green light to reflect, the object would appear black.
The object appears blue because it is absorbing colors in the red and yellow range of the spectrum and reflecting blue light.
Assuming that the light you are shining on the object is white, then the object is also blue. Objects appear a certain color because they reflect that color to our eyes and the rest of the colors in the light are absorbed by the object.
The object will appear to be blue. However, the object would be indistinguishable from an object that reflects all colors of light. If yellow light were shone on an object that reflects only blue wavelengths, the object would appear to be black.
A blue object appears blue because it absorbs most colors and reflects blue light. However, when a red light shines on a blue object, the blue object would absorb the red light and reflect blue, so it would still appear blue.
Black, because the blue light would be absorbed into the object's pigment and as there is no green light to reflect, the object would appear black.
The object appears blue because it is absorbing colors in the red and yellow range of the spectrum and reflecting blue light.
Assuming that the light you are shining on the object is white, then the object is also blue. Objects appear a certain color because they reflect that color to our eyes and the rest of the colors in the light are absorbed by the object.
The object will appear to be blue. However, the object would be indistinguishable from an object that reflects all colors of light. If yellow light were shone on an object that reflects only blue wavelengths, the object would appear to be black.
A blue object appears blue because it absorbs most colors and reflects blue light. However, when a red light shines on a blue object, the blue object would absorb the red light and reflect blue, so it would still appear blue.
A blue object appears blue because it reflects blue light wavelengths and absorbs other wavelengths of light. When white light, which contains all colors of the spectrum, shines on the object, the blue wavelengths are reflected while all other colors are absorbed, resulting in the perception of blue color.
That certain object has a pigment of every color except for blue.
An object appears blue in white light because it absorbs all of the colors in the visible spectrum except blue, which it reflects. The reflected blue light is then what we perceive with our eyes as the color of the object.
When an object appears blue, it is because it is absorbing all colors of light except for blue. Blue light is reflected off the object, which is why we see it as blue.
If an object appears blue, it means that it reflects and scatters blue light while absorbing other colors. The object appears blue because our eyes detect the reflected blue light. This phenomenon is based on the object's molecular structure and the wavelengths of light it interacts with.
A blue object will absorb most light except blue wavelengths of light, which it will reflect, making the object appear blue. This is because objects appear a certain color based on the wavelengths of light they reflect.
Blue light is being reflected. When you see an object as blue, it means that the object is absorbing all colors of light except for blue, which is being reflected off the object and entering your eyes.