Well, I wasn't actually there, so I didn't observe anything. But from my education
and personal experience, I know that the product of the wavelength and frequency
of any wave is the wave's speed. So I should expect that the product of wavelength
and frequency for any color of light, and for that matter, any electromagnetic wave,
is always the same number, and ought to always be very close to the speed of light
in the medium in which you observed it, or would have observed it had you been there.
The product of a wave's frequency and
its wavelength is always its speed.
For any kind of wave motion at all, the product of the
frequency and wavelength is the speed of the wave.
Wavelength and frequency.(But the product of the [ wavelength x frequency ] of any color is always the same number.)
Wave length and frequency affect color in a great way. If wavelength is short it is a cool color, if it is long it is a hot color.
Its wavelength (or frequency).
Wavelength, or alternatively its frequency.
The color of light is related to its frequency or wavelength.
Wavelength and frequency.(But the product of the [ wavelength x frequency ] of any color is always the same number.)
Wave length and frequency affect color in a great way. If wavelength is short it is a cool color, if it is long it is a hot color.
Its wavelength (or frequency).
Wavelength, or alternatively its frequency.
Wavelength, or alternatively its frequency.
The color of light is related to its frequency or wavelength.
Fundamentally it is the frequency. When light travels into a medium like glass the speed and wavelength can decrease but the frequency and color do not change. If light does not pass thru different mediums then it is safe to talk about its color in terms of either frequency or wavelength (one is inversely proportional to the other by speed of light = frequency x wavelength) but fundamentally one would use frequency.
The color is red.
The perceived color.
Its wavelength/frequency.
Violet.
Wavelength, Frequency, or Photon Energy