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M6 and M7 in the Scorpion’s Tail

M6 and M7: Night sky with two close-together, brilliant stars and two patches of multiple stars nearby.
In a dark sky, you’ll see 2 famous star clusters – M6 and M7 – in the constellation Scorpius the Scorpion. In this photo, Messier 7 – aka Ptolemy’s Cluster – is above the tree on the left. Messier 6, the Butterfly Cluster, is a bit smaller, positioned near the center top of the image. Shaula and Lesath, the stinger stars in Scorpius, are prominent in the lower right. Image via Tom Wildoner/ Flickr.

Two spectacular star clusters glitter near the “stinger stars” – Shaula and Lesath – in the constellation Scorpius the Scorpion. Messier 6 and Messier 7 – or M6 and M7 – are open star clusters. Each cluster is a group of stars formed from the same interstellar cloud. The two clusters are visible on summer evenings in the Northern Hemisphere, or winter evenings in the Southern Hemisphere. They’re best viewed in a dark sky, and are a stunning sight through binoculars.

A star chart with stars in black on white, and the stars of Scorpius connected by lines.
A map of the constellation Scorpius. The stinger stars, Shaula and Lesath, are at the end of the J-shaped constellation. If you draw an imaginary line from Lesath through Shaula, it will lead you to the star cluster M7. Image via International Astronomical Union/ Sky & Telescope/ Wikimedia Commons.

How to find M6 and M7

These two star clusters are easy to spot in a dark sky near the curved tail of the constellation Scorpius the Scorpion. Scorpius is shaped like the letter J. The two stars, Shaula and Lesath – at the end of the curved part of the J – mark the end of the Scorpion’s Tail. They’re known as the Cat’s Eyes, or the stinger of Scorpius. If you draw an imaginary line from Lesath through Shaula, you’ll find M7, which is the brighter and larger of the two star clusters. Then from M7, you find M6 only a short hop away.

Although M6 and M7 are visible to the unaided eye on a dark, moonless night, the brilliance and beauty of these deep sky objects are magnificent through binoculars. Plus you can’t miss them, if you have a dark sky.

Night sky with stars and clusters over trees and water. Bright dashed lines in the foreground.
The 2 stars noticeably close together in this photo are Shaula and Lesath, representing the Stinger of the constellation Scorpius the Scorpion. The 2 fuzzy objects near these stars – to their left in this photo – are Messier 7 and Messier 6. And the streaks in the foreground? Fireflies dancing on a summer night in Yellowwood Lake, Indiana. Image via Zolt Levay/ Flickr.

If you’re in the northern U.S., Canada, or a similar latitude, you’ll need an unobstructed horizon toward the south to find M6 and M7. They are highest in the sky when due south, and even then never climb very high in the sky. Meanwhile, from latitudes like those in the southern U.S., the clusters are easy to spot when highest in the south, above the Scorpion’s Tail. Generally, Scorpius is much easier to view from the equator and most of the Southern Hemisphere.

Best time to view

Consequently, in mid-June, these clusters bedeck the sky around midnight (1 a.m. daylight saving time in the U.S.). Keep in mind that all the stars (and star clusters) return to the same place in the sky some four minutes earlier with each passing day, or two hours earlier with each passing month. Therefore, M6 and M7 appear highest in the sky at about 10 p.m. (11 p.m. daylight saving time) in mid-July, and 8 p.m. (9 p.m. daylight saving time) in mid-August.

M6 and M7 science

Even though M6 (Butterfly Cluster) and M7 (Ptolemy’s Cluster) appear close together on the sky’s dome, they are far apart in space. M6 is about 1,600 light-years away and shines at magnitude 4.2. M7 is about 980 light-years and shines at magnitude 3.3. So, the clusters are not related to each other, but only appear near each other along our line of sight.

But, within each cluster, the stars are related. Each cluster was born from a single interstellar cloud of gas and dust. The hundreds of stars in each cluster are indeed sibling stars, in that they are gravitationally bound to one another and travel in the same direction through space. Therefore, such a collection of stars is known as an open star cluster.

A group of mostly blue-white stars against dense field of fainter stars.
Messier 6 through a wide field telescope and camera. Image via Fred Espenak.
Group of mostly blue-white stars against an extremely dense star field with some dark lanes.
Messier 7 through a wide field telescope and camera. Image via Fred Espenak.

The clusters are in the thick of the Milky Way

M6 and M7 reside near the galactic equator, the region on the sky’s dome rich with star clusters, star clouds, and nebulae. Once you find M6 and M7, try locating other deep-sky binocular doubles, such as M8 and M20. Also check out M16 and M17. Unlike M6 and M7, which reside within the Orion spiral arm of the Milky Way galaxy, these deep-sky wonders loom farther away, in the next spiral arm inward, the Sagittarius arm. Also, M6 and M7 are established open star clusters. But M8 and M20, and M16 and M17, are nebula where stars are forming.

Bottom line: Messier 6 and Messier 7 are striking star clusters near the tail of Scorpius. M6 and M7 are ideally viewed in dark sky conditions using binoculars.

The post M6 and M7 in the Scorpion’s Tail first appeared on EarthSky.

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