Scattering
agents smaller than about 1/10th the wavelength of incoming
radiation disperse radiation (both forward and backward) in a manner known as
Rayleigh scattering. Rayleigh scattering is performed by individual gas
molecules in the atmosphere and primarily affects shorter wavelengths. It is particularly
effective for visible light, especially for those colors with the shortest
wavelengths (i.e. blue).
Combined with greater effectiveness in
scattering shorter wavelengths than longer wavelengths, this characteristic
leads to three interesting phenomena:
1.
The blue sky on a clear day
2.
The blue tint of our atmosphere
3.
The redness of sunsets and sunrises
Why is
the sky blue?
Gases
and particles in the atmosphere scatter some incoming solar radiation in all
directions. Air molecules scatter shorter wavelengths most effectively and blue
light is among the shortest (and therefore most readily scattered) of visible
wavelengths thus the scatter contains a higher proportion of blue light. And,
since Rayleigh scattering occurs at every point in a clear atmosphere and
diverts energy towards a viewer from all directions, no matter where you look
on a cloudless day, the sky is blue.
Some
more interesting facts…
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