Light spectrum of planet Earth as seen from space

In summary, the spectrum of light that is reflected off of Earth has been measured from outer space, and it is possible that there could be dips in the spectrum resulting from absorption by solid substances on the surface of the planet.
  • #1
William LL
2
0
Has the spectrum of light that is reflected off planet Earth ever been measured from outer space? (In the same sense that we measure spectra of the light emitted/reflected from other celestial bodies in astronomy). If so, would it be possible that there could be dips in the spectrum resulting from absorption by solid substances on the surface of the planet, not just gases in the atmosphere?
 
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  • #2
Yes, that has been measured. Oceans, ice, trees, dirt, and pavement give off very different spectra. Early cold war spy satellites could see where people had walked at night because grass with dew on it emits different wavelengths than grass without dew. A lot of weather forecasting uses satellite images. There are a lot of them aimed at earth.
 
  • #3
Thanks for the reply, i have another question.
Where could one find a graph showing the intensity-wavelength graph of said light spectrum? I've been searching on google and so far I've only found data on the atmospheric absorbance, not on the emission spectrum of Earth as a whole.
 
  • #4
Most people looking at that are interested in the atmospheric absorption. The raw data is the spectrum that you want. The atmospheric absorption is calculated by subtracting reflected sunlight and ground level emission. https://www.ncdc.noaa.gov/data-access/satellite-data/satellite-data-access-sorted-satellite-instrument. I tried to look at the data but my computer did not recognize the "tar" file. Anyway you can get the raw data from National Center for Environmental Information.

Most satellites use instruments in a narrow band of wavelengths. To get the full spectrum you would need to combine data from multiple satellites.

The emission spectrum of Earth as a whole changes. seasons, day vs night, current weather, which direction you look from, Pacific vs Atlantic etc, pole vs equator, etc. The geostationary satellites only look at one area.
 

Related to Light spectrum of planet Earth as seen from space

1. What is the light spectrum of planet Earth as seen from space?

The light spectrum of planet Earth as seen from space is a combination of all the wavelengths of electromagnetic radiation that are reflected by the Earth's surface, atmosphere, and clouds. This includes visible light, infrared, and ultraviolet light.

2. How does the light spectrum of Earth change from day to night?

The light spectrum of Earth changes from day to night as the sun's position in the sky changes. During the day, the Earth's atmosphere scatters and absorbs more of the shorter wavelength light, giving the sky a blue appearance. At night, the Earth's atmosphere scatters and absorbs less light, allowing more of the longer wavelength light, such as red and orange, to reach our eyes.

3. Why does Earth appear blue from space?

Earth appears blue from space because of the way sunlight interacts with our atmosphere. The Earth's atmosphere scatters blue light more than any other color, making the sky appear blue. This effect is amplified when viewed from space, as there is no interference from clouds or other objects.

4. Are there any variations in the light spectrum of Earth depending on location?

Yes, there are variations in the light spectrum of Earth depending on location. For example, areas with dense vegetation may appear greener due to the reflection of more green light, while deserts may appear more orange or red due to the reflection of more red light. Additionally, the amount of cloud cover can also affect the appearance of the light spectrum in different areas.

5. How does the light spectrum of Earth compare to other planets?

The light spectrum of Earth is unique compared to other planets in our solar system. Venus, for example, has a thick atmosphere that absorbs most of the visible light, giving it a yellowish appearance. Mars, on the other hand, has a thin atmosphere that allows more visible light to reach the surface, giving it a reddish appearance. Other planets, such as Jupiter and Saturn, have different compositions and atmospheres that also affect their light spectra.

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