Under a blue light, a carrot would appear to be a dark shade of purple. This is because blue light has a shorter wavelength and higher energy compared to other colors in the visible spectrum. When blue light interacts with the pigments in a carrot, it absorbs certain wavelengths and reflects others, resulting in the perception of a purple hue.
Dark blue and light orange would likely create a muddy, brownish color when combined.
BLACK because the apple absorbs the blue light and there would be no light to reflect.
Black
orange
Under a blue light, a carrot would appear to be a dark shade of purple. This is because blue light has a shorter wavelength and higher energy compared to other colors in the visible spectrum. When blue light interacts with the pigments in a carrot, it absorbs certain wavelengths and reflects others, resulting in the perception of a purple hue.
Blue appears black under a yellow light. For example if you have a blue car and you put a yellow light on it will appear black due to the absence of color. The light has nothing to reflect back.
Yes orange is darker than light blue.
Blue
Dark blue and light orange would likely create a muddy, brownish color when combined.
BLUE
light blue orange orange light blue
blue torquise purple aqua blue-green green light green lightyellow light blue light purple light red light orange orange red
Blue light would produce a wider diffraction pattern compared to orange light. This is because smaller wavelengths diffract more than larger ones when passing through an aperture, resulting in a wider spread of light.
A red rose would appear darker and less vibrant under blue light due to the interaction between the blue light and the red pigments in the rose petals. The blue light would not enhance the red color of the rose, making it appear different from how it looks under white light.
BLACK because the apple absorbs the blue light and there would be no light to reflect.
A light green