Lowest frequency = longest wavelength.
That's the last color your eyes can see at the 'red' end of the rainbow.
Red is the lowest. From there, frequencies increase, in the order of the colors of the rainbow, until you reach the highest visible frequency at violet.
The lowest frequency / longest wavelength of visible light are those of the last color you can see on the RED end of the rainbow.
The color red has the lowest frequency of the visible light - violet has the highest
It goes in order from highest frequency beam, violet, to lowest frequency, red.
Red light has the lowest frequency and violet, the highest. The colors of visible light, in order from lowest frequency to highest: Red, Orange Yellow, Green, Blue, Indigo, Violet.
Red is the lowest. From there, frequencies increase, in the order of the colors of the rainbow, until you reach the highest visible frequency at violet.
The longest one does. If you're talking about visible light, then it's the last color you can see on the red end. If you're talking about the electromagnetic spectrum in general, then there's no such thing as the "lowest" frequency.
The lowest frequency / longest wavelength of visible light are those of the last color you can see on the RED end of the rainbow.
it is red becaude it is darker
The color red has the lowest frequency of the visible light - violet has the highest
Red, because it has the lowest frequency in visible light
That's blue light.
yellow
It goes in order from highest frequency beam, violet, to lowest frequency, red.
red
The colors of light are determined by the frequency or wave length of light rays. Sunlight contains all colors. In the case of a rainbow the atmosphere separates these colors spreading them out. Red is the lowest frequency and thus comes first. Violet is highest frequency and thus comes last. ================================ Doesn't the whole thing depend on which end you decide to start naming the colors from ? ?
In Newton's sevenfold, violet would be the last color of the rainbow.