August 18, 2022

Astronaut snaps spectacular shot of crescent moon glowing over stunning sunset

Astronaut snaps spectacular shot of crescent moon glowing over stunning sunset
Astronaut snaps spectacular shot of crescent moon glowing over stunning sunsetAstronaut snaps spectacular shot of crescent moon glowing over stunning sunset

Astronaut photograph ISS066-E-86969 taken aboard the ISS on Dec. 6, 2021.

Astronaut photograph ISS066-E-86969 taken aboard the ISS on Dec. 6, 2021. (Image credit: NASA’s Earth Observatory)

An astronaut aboard the International Space Station (ISS) has captured a stunning photo of a crescent moon above Earth as the last light of the setting sun shines through the different layers of the atmosphere. 

The photo was taken Dec. 6, 2021, by an unnamed member of the Expedition 66 crew — a group of seven astronauts from NASA, the European Space Agency, the Japan Aerospace Exploration Agency and Russia’s State Space Corporation, Roscosmos. The image was taken using a digital camera as the ISS passed over the Pacific Ocean east of New Zealand at an altitude of around 262 miles (422 kilometers).

NASA’s Earth Observatory released the photo on Dec. 31, 2021. “This view offers a symbolic end to the year 2021 and a look toward NASA’s next goal for human-crewed exploration,” Earth Observatory representatives said in a statement.

Related: 12 amazing Landsat satellite images of Earth from space

The photo features a multicolored orbital sunset that fades from orange near Earth’s surface to dark blue at the boundary of space. The different colors belong to the first four layers of the atmosphere: the troposphere, between zero and 7.5 miles (12 km); the stratosphere, between 7.5 and 31 miles (50 km); the mesosphere, between 31 and 50 miles (80 km); and the thermosphere, between 50 and 440 miles (700 km), according to NASA.

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The different colors are the result of a phenomenon known as Rayleigh scattering, named after the 19th-century British physicist Lord Rayleigh. In this process, electromagnetic radiation, such as visible light, is scattered by particles smaller than its wavelength, such as air molecules. (What we see is the light of those scattered wavelengths.) Each layer of the atmosphere has a different density of gas particles, meaning the scattered light is a different color in each of those layers.

Originally published on Live Science.