Messier Monday: The Most Curious Object of All, M24

This star cloud is the only one of its kind: the densest large concentration of stars in the entire sky!

Image credit: Dan Bush of Missouri Skies, via http://www.pbase.com/image/115380497.

“It takes considerable knowledge just to realize the extent of your own ignorance.” –Thomas Sowell

Out of the 110 deep-sky objects in the Messier catalogue, 107 of them fall into five simple categories: stellar remnants, star-forming nebulae, open clusters, globular clusters and galaxies. Of the other three, two are true mistakes: the double star M40 and the quadruple star M73. But the one remaining anomaly — today’s object — is unlike anything else in the sky.

Image credit: Mike Keith, via http://cosmicneighbors.net/PeriodicMessier.htm.

Located right in the plane of our galaxy — visible from the northern hemisphere most clearly after sunset on a summer’s night — lies the densest collection of stars the entire sky has to offer. But unlike the other stars that make up objects in the Messier catalogue, this isn’t a cluster we’re looking at, but a glimpse at one of our galaxy’s spiral arms, seen from our vantage point over 10,000 light-years away!

Today’s object is the one-of-a-kind curiosity: Messier 24, the Sagittarius Star Cloud. Here’s how to find it.

Image credit: me, using the free software Stellarium, available at http://stellarium.org/.

Once the skies darken after sundown tonight, the recognizable asterism of the teapot (in Sagittarius) should shine prominently above the horizon towards the south. If you look at the star that shines brightest directly “above” the top of the teapot — which you can also arrive at by extending the line between the two stars that connect the “spout” to the “pot,” Kaus Australis to Kaus Media — you’ll be well on your way to Messier 24.

Fainter than the brightest stars in the teapot but still prominent to the naked-eye, μ Sagittarii is actually a system of at least six stars located nearly 4,000 light years away, and if you follow the rough “arrow” created by it and its two nearby stars, 15 Sagittarii and 16 Sagittarii, a little farther north, you’ll come to an unmistakeable “cloud” of stars in the sky, richer in stars than any other comparably sized region as seen from Earth.

That hazy patch is itself Messier 24, and unlike most other Messier objects, is best viewed at low magnification or even through binoculars, because it’s absolutely huge on the sky, taking up the area-equivalent of about nine full Moons! Messier didn’t know what he was seeing but described it so:

“Cluster on the parallel of the preceding [M23] & near the end of the bow of Sagittarius, in the Milky Way: a large nebulosity in which there are many stars of different magnitudes: the light which is spread throughout this cluster is divided into several parts…”

Here’s a glimpse at what he was looking at.

Image credit: Jim Mazur of Skyledge, via http://www.skyledge.net/Messier24.htm.

This big, apparent cluster of brilliant white-and-blue in the sky really stands out from its surroundings. But the reason isn’t what you might have expected: you see, this isn’t a dense region containing more stars and matter than the surrounding ones.

Instead, this is a region of space that happens to have less light-blocking dust than the rest of the environs around it!

Image credit: Fernando Cabrerizo, via http://apod.nasa.gov/apod/ap130712.html.

There are many other Messier objects around it, and those others are “true” objects: nebulae and star clusters, mostly. But this is a chance window, where there isn’t a substantial amount of light-blocking material located in this narrow region of sky, and we can see all the way through to the Sagittarius arm of the Milky Way, presently the closest spiral arm to the Sun!

If you were to take all the dust of the Milky Way away — or look in infrared wavelengths, where dust is invisible — this patch of sky would be representative of the entire galactic plane!

Image credit: Vanessa Harvey, REU program/NOAO/AURA/NSF, via http://tcaa.us/Astronomy/Messier/Messier.aspx?id=M24.

Instead, this is the one place in our sky that treats us to views this distant: the Sagittarius-arm seen through this gap-in-the-dust extends from about 10,000 to 16,000 light-years distant, and contains not only all sorts of different classes of stars, but also contains some nearby, foreground stars that appear to shine much more brightly than the vast majority of the ones in the distant arm.

Image credit: © 2006 — 2012 by Siegfried Kohlert, via http://www.astroimages.de/en/gallery/M24.html.

Even on a night like tonight, where the Moon is bright and lingering in the sky, the Sagittarius star cloud is a spectacular feast for the eyes, whether your equipment is primitive (like a pair of department-store binoculars) or advanced. Although, with such a huge object, you’ll definitely want to enjoy the wide-field views it has to offer, and if you’re on a larger telescope, you very likely won’t be able to take it all in at once!

Image credit: RoryG from East Texas, at http://eastexastronomy.blogspot.com/2011/03/messier-24-sagittarius-star-cloud-redo.html.

Some people mistakenly identify the small, faint cluster seen above towards the lower left — NGC 6603 — as Messier 24; it’s not, and don’t be fooled! Messier 24 is huge, and much larger than the individual cluster you see there. In fact, many interesting visual features, some of which are clusters and some of which are interstellar dust, abound in a wide-field view. Be sure and — if you have a high-powered telescope — take your time scrolling through the wonders of this region!

Image credit: John C. Mirtle of http://www.astrofoto.ca/john/m024.htm.

The best wide-field view, that really encapsulates just how spectacular this region is, comes via Deep Sky Astrophotography, and really shows off just how brilliant this portion of the sky is, particularly compared with everything else around it!

Image credit: ©2009 FotisRizos, via user FSQ106 — Artemis11002c2, at http://www.astrophotographos.com/apps/photos/photo?photoid=20936751.

But if we want to see this up close, at say, professional resolution, we’d only be able to see a small portion of this region. Thankfully, the NOAO image I showed you earlier has that option available to it, in a whopping 15 Gigapixel image! Here’s just a slice — presented in optimal screen-resolution — for your viewing (and scrolling) pleasure.

Image credit: Vanessa Harvey, REU program/NOAO/AURA/NSF, via http://www.noao.edu/image_gallery/html/im0845.html.

And with that, we’ll come to the close of the most anomalous — but in many regards, the most spectacular — Messier Monday of them all! Including today, we’ve examined the following Messier objects:

M1, The Crab Nebula: October 22, 2012
M2, Messier’s First Globular Cluster: June 17, 2013
M3, Messier’s First Original Discovery: February 17, 2014
M4, A Cinco de Mayo Special: May 5, 2014
M5, A Hyper-Smooth Globular Cluster: May 20, 2013
M7, The Most Southerly Messier Object: July 8, 2013
M8, The Lagoon Nebula: November 5, 2012
M9, A Globular from the Galactic Center: July 7, 2014
M10, A Perfect Ten on the Celestial Equator: May 12, 2014
M11, The Wild Duck Cluster: September 9, 2013
M12, The Top-Heavy Gumball Globular: August 26, 2013
M13, The Great Globular Cluster in Hercules: December 31, 2012
M14, The Overlooked Globular: June 9, 2014
M15, An Ancient Globular Cluster: November 12, 2012
M18, A Well-Hidden, Young Star Cluster: August 5, 2013
M20, The Youngest Star-Forming Region, The Trifid Nebula: May 6, 2013
M21, A Baby Open Cluster in the Galactic Plane: June 24, 2013
M23, A Cluster That Stands Out From The Galaxy: July 14, 2014
M24, The Most Curious Object of All: August 4, 2014
M25, A Dusty Open Cluster for Everyone: April 8, 2013
M27, The Dumbbell Nebula: June 23, 2014
M29, A Young Open Cluster in the Summer Triangle: June 3, 2013
M30, A Straggling Globular Cluster: November 26, 2012
M31, Andromeda, the Object that Opened Up the Universe: September 2, 2013
M32, The Smallest Messier Galaxy: November 4, 2013
M33, The Triangulum Galaxy: February 25, 2013
M34, A Bright, Close Delight of the Winter Skies: October 14, 2013
M36, A High-Flying Cluster in the Winter Skies: November 18, 2013
M37, A Rich Open Star Cluster: December 3, 2012
M38, A Real-Life Pi-in-the-Sky Cluster: April 29, 2013
M39, The Closest Messier Original: November 11, 2013
M40, Messier’s Greatest Mistake: April 1, 2013
M41, The Dog Star’s Secret Neighbor: January 7, 2013
M42, The Great Orion Nebula: February 3, 2014
M44, The Beehive Cluster / Praesepe: December 24, 2012
M45, The Pleiades: October 29, 2012
M46, The ‘Little Sister’ Cluster: December 23, 2013
M47, A Big, Blue, Bright Baby Cluster: December 16, 2013
M48, A Lost-and-Found Star Cluster: February 11, 2013
M49, Virgo’s Brightest Galaxy: March 3, 2014
M50, Brilliant Stars for a Winter’s Night: December 2, 2013
M51, The Whirlpool Galaxy: April 15th, 2013
M52, A Star Cluster on the Bubble: March 4, 2013
M53, The Most Northern Galactic Globular: February 18, 2013
M56, The Methuselah of Messier Objects: August 12, 2013
M57, The Ring Nebula: July 1, 2013
M58, The Farthest Messier Object (for now): April 7, 2014
M59, An Elliptical Rotating Wrongly: April 28, 2014
M60, The Gateway Galaxy to Virgo: February 4, 2013
M61, A Star-Forming Spiral: April 14, 2014
M63, The Sunflower Galaxy: January 6, 2014
M64, The Black Eye Galaxy: February 24, 2014
M65, The First Messier Supernova of 2013: March 25, 2013
M66, The King of the Leo Triplet: January 27, 2014
M67, Messier’s Oldest Open Cluster: January 14, 2013
M68, The Wrong-Way Globular Cluster: March 17, 2014
M71, A Very Unusual Globular Cluster: July 15, 2013
M72, A Diffuse, Distant Globular at the End-of-the-Marathon: March 18, 2013
M73, A Four-Star Controversy Resolved: October 21, 2013
M74, The Phantom Galaxy at the Beginning-of-the-Marathon: March 11, 2013
M75, The Most Concentrated Messier Globular: September 23, 2013
M77, A Secretly Active Spiral Galaxy: October 7, 2013
M78, A Reflection Nebula: December 10, 2012
M79, A Cluster Beyond Our Galaxy: November 25, 2013
M80, A Southern Sky Surprise: June 30, 2014
M81, Bode’s Galaxy: November 19, 2012
M82, The Cigar Galaxy: May 13, 2013
M83, The Southern Pinwheel Galaxy, January 21, 2013
M84, The Galaxy at the Head-of-the-Chain, May 26, 2014
M85, The Most Northern Member of the Virgo Cluster, February 10, 2014
M86, The Most Blueshifted Messier Object, June 10, 2013
M87, The Biggest One of them All, March 31, 2014
M88, A Perfectly Calm Spiral in a Gravitational Storm, March 24, 2014
M89, The Most Perfect Elliptical, July 21, 2014
M90, The Better-You-Look, The Better-It-Gets Galaxy, May 19, 2014
M91, A Spectacular Solstice Spiral, June 16, 2014
M92, The Second Greatest Globular in Hercules, April 22, 2013
M93, Messier’s Last Original Open Cluster, January 13, 2014
M94, A double-ringed mystery galaxy, August 19, 2013
M95, A Barred Spiral Eye Gazing At Us, January 20, 2014
M96, A Galactic Highlight to Ring in the New Year, December 30, 2013
M97, The Owl Nebula, January 28, 2013
M98, A Spiral Sliver Headed Our Way, March 10, 2014
M99, The Great Pinwheel of Virgo, July 29, 2013
M100, Virgo’s Final Galaxy, July 28, 2014
M101, The Pinwheel Galaxy, October 28, 2013
M102, A Great Galactic Controversy: December 17, 2012
M103, The Last ‘Original’ Object: September 16, 2013
M104, The Sombrero Galaxy: May 27, 2013
M105, A Most Unusual Elliptical: April 21, 2014
M106, A Spiral with an Active Black Hole: December 9, 2013
M107, The Globular that Almost Didn’t Make it: June 2, 2014
M108, A Galactic Sliver in the Big Dipper: July 22, 2013
M109, The Farthest Messier Spiral: September 30, 2013

Come back tomorrow, where we’ll have more wonders of the Universe on tap, and next Monday for another exciting Messier object that you can find even with a full Moon shining, only here on Starts With A Bang!

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