1. Rayleigh -spredning:
* Blue light scatters more: Blue light has a shorter wavelength than other colors of light. This means it is scattered more easily by the tiny particles in the atmosphere (nitrogen and oxygen molecules).
* Sunlight travels a longer distance: As the sun sets, sunlight has to travel through a greater amount of atmosphere to reach our eyes.
* More blue light is scattered away: During the day, this scattering gives the sky its blue color. However, at sunset, the longer path means more blue light is scattered away, leaving behind the longer wavelengths of red and orange light.
2. Mie Scattering:
* Larger particles scatter longer wavelengths: Mens Rayleigh -spredning hovedsageligt er forårsaget af små partikler, forekommer MIE -spredning, når større partikler (som støv, vanddråber og aerosoler) er til stede i atmosfæren.
* Red and orange light are scattered more: This type of scattering preferentially scatters longer wavelengths, like red and orange light.
3. Atmospheric Absorption:
* Ozone absorbs blue light: Ozone in the upper atmosphere absorbs some of the blue light, which further enhances the appearance of red and orange hues at sunset.
4. Clouds and Dust:
* Clouds and dust reflect light: Clouds and dust particles in the atmosphere can reflect and scatter light, contributing to the vibrant colors of the sunset sky.
5. Perspective:
* Sun lower in the sky: As the sun descends towards the horizon, the light has to travel through more atmosphere to reach our eyes, leading to the intense colors.
Kortfattet: Kombinationen af Rayleigh -spredning, MIE -spredning, atmosfærisk absorption og perspektiv bidrager alle til de dramatiske farveændringer, vi ser ved solnedgang. The longer wavelengths of light, like red and orange, are scattered less and become more prominent as the sun dips below the horizon.
Sidste artikelHvad forårsager konstellation?
Næste artikelHvad kan planeter lide at læse?