It affects the color of the light. If you change the wavelength of visible light, you change the light's color. For instance. Red is a wavelength of approximately 650 nanometers. Orange, about 590. Yellow, 570. Green- 510, Blue, 475 nanometers. Indigo is 445 and Violet is about 400. You can see more here: http://eosweb.larc.NASA.gov/EDDOCS/Wavelengths_for_Colors.html#red
The wavelength defines the colour your see or if the wavelength is too long or short it becomes invisble to the human eye (infrared or ultraviolet)
true a+ users
The amplitude of the light wave determines the intensity of the light shown.
NO, it is not
color is related to the wavelenght (or the frequency) i.e to the photon energy
Amplitud is the intensity of the wave
The longer the wavelenght the more that you can see it.
The wavelength of light depends on what color it is, not its amplitude, at all.
The shorter the wavelength the closer the color will be to purple the longer the wavelength the closer it will be to red.
The Amplitude of ANY Wave is a measure of its Energy content. For light that would be BRIGHTNESS as seen by the Eye.
Red is the longest wavelength of visible light
The visible light of violet.
Wavelength, Frequency, or Photon Energy
RED
Violet (purple) is the highest energy color in the visible spectrum. It has a wavelength of about 400nm (4x10-8m), the lowest of all visible light.
Red is the longest wavelength of visible light
Red is the longest wavelength of visible light
Yes.
The color of light is related to its frequency or wavelength.
Violate light has the shortest visible wavelength. Around 400 nanometers.
what is the wavelength of visible light
The colour of visible light with the longest wavelength is red (approximately 700 nanometres).
The shortest wavelength of visible light is the wavelength of the last color you can see on the blue end of the rainbow or spectrum.
The visible light of violet.
Yes. Every different frequency (wavelength) of light is perceived as a different color by the human eye. Except in colorblind people, that is.
Violet has the shortest wavelength
Wavelength, Frequency, or Photon Energy