Hubble Hooks A One-Arm Galaxy Via NASA Https://ift.tt/3bGuO2f

Rozgwieżdżone niebo, Mazowsze Starry sky, Mazovia

This is the Tarantula Nebula! 🕷🕸🕷🕸🕷🕸

This star forming region is so big that it is 160,000 light years across! At it’s center, there are a bunch of stars totalling 450,000 solar masses that produce the Tarantula Nebula’s high luminosity and will likely become a vibrant globular cluster. ✨✨✨

Taken by me (Michelle Park) using the Slooh Chile One telescope on November 16th, 2020 at 5:27 UTC.

LDN 1471: A Windblown Star Cavity via NASA https://ift.tt/2ywsXin

Carina, Clouds and Stardust

Milky Way over Pyramid of the Feathered Serpent : To see the feathered serpent descend the Mayan pyramid requires exquisite timing. You must visit El Castillo – in Mexico’s Yucatán Peninsula – near an equinox. Then, during the late afternoon if the sky is clear, the pyramid’s own shadows create triangles that merge into the famous illusion of the slithering viper. Also known as the Temple of Kukulkan, the impressive step-pyramid stands 30 meters tall and 55 meters wide at the base. Built up as a series of square terraces by the pre-Columbian civilization between the 9th and 12th century, the structure can be used as a calendar and is noted for astronomical alignments. To see the central band of our Milky Way Galaxy descend overhead the Mayan pyramid, however, requires less exquisite timing. Even the ancient Mayans might have been impressed, though, to know that the exact positions of the Milky Way, Saturn (left) and Jupiter (right) in the featured image give it a time stamp more specific than equinox – in fact 2019 April 7 at 5 am. via NASA

Orion Molecular Cloud

Jupiter’s Equator via NASA https://ift.tt/2HEWcAo

Digital Spacescapes by Tim Barton

In Roman mythology, the god Jupiter drew a veil of clouds around himself to hide his mischief. It was only Jupiter’s wife, the goddess Juno, who could peer through the clouds and reveal Jupiter’s true nature. ⁣ ⁣ Our @NASAJuno spacecraft is looking beneath the clouds of the massive gas giant, not seeking signs of misbehavior, but helping us to understand the planet’s structure and history…⁣ ⁣ Now, @NASAJuno just published its first findings on the amount of water in the gas giant’s atmosphere. The Juno results estimate that at the equator, water makes up about 0.25% of the molecules in Jupiter’s atmosphere — almost three times that of the Sun. An accurate total estimate of this water is critical to solving the mystery of how our solar system formed. 

The JunoCam imager aboard Juno captured this image of Jupiter’s southern equatorial region on Sept. 1, 2017. The bottom image is oriented so Jupiter’s poles (not visible) run left-to-right of frame.

Image credit: NASA/JPL-Caltech/SwRI/MSSS/Kevin M. Gill ⁣ ⁣