This is a bit of a circular answer:
Because the "red" color receptors in the human eye respond to the longer wavelengths of visible light more intensely than the "green" or "blue" color receptors do.
Of the seven colors in the rainbow (red, orange, yellow, green, blue, indigo, and violet) the color with the longest wavelength is red.
The wavelength for the color red is 700-635 nm, which can also be said as 700 to 635 nanometers.
The color red has the largest wavelength. The color violet, on the other hand, has the shortest wavelength.
The color red has the longest wavelength of all the colors in the light spectrum.
red
The wavelength of maximum absorbence relates to the color, because the only color that is not absorbed will be the color of the item. For example, plants are green because they absorb red and blue light, and reflect green light.
Because red light has minimum frequency and thus it has maximum wavelength.
The color red has the longest wavelength of any color.
Of the seven colors in the rainbow (red, orange, yellow, green, blue, indigo, and violet) the color with the longest wavelength is red.
red colour has highest wavelength
The wavelength for the color red is 700-635 nm, which can also be said as 700 to 635 nanometers.
Because in the visible-to-humans-(who call red, "red")-portion of the electromagnetic spectrum, the particular wavelength whose wavelength matches the wavelength of the color red looks red in color to the humans who call red "red" and not just a feeling. Red isn't even a feeling. What are you talking about?
The color red has the largest wavelength. The color violet, on the other hand, has the shortest wavelength.
The color red has the longest wavelength of all the colors in the light spectrum.
Red
red
red