Universe Today
Welcome back to Messier Monday! In our ongoing tribute to the great Tammy Plotner, we take a look at the globular cluster known as Messier 30. Enjoy!
During the 18th century, famed French astronomer
Charles Messier
noted the presence of several "nebulous objects" in the night sky. Having originally mistaken them for comets, he began compiling a list of them so that others would not make the same mistake he did. In time, this list (known as the
Messier Catalog
) would come to include 100 of the most fabulous objects in the night sky.
One of these objects is Messier 30, a globular cluster located in the southern constellation of
Capricornus
. Owing to its retrograde orbit through the inner galactic halo, it is believed that this cluster was acquired from a satellite galaxy in the past. Though it is invisible to the naked eye, this cluster can be viewed using little more than binoculars, and is most visible during the summer months.
Description:
Messier measures about 93 light years across and lies at a distance of about 26,000 light years from Earth, and approaching us at a speed of about 182 kilometers per second. While it looks harmless enough, its tidal influence covers an enormous 139 light years - far greater than its apparent size.
Half of its mass is so concentrated that literally thousands of stars could be compressed in an area that spans no further than the distance between our solar system and Sirius! However, inside this density only 12 variable stars have been found and very little evidence of any stellar collisions, although a dwarf nova has been recorded!
So what's so special about this little globular? Try a collapsed core - and one that's even been resolved by Earth-bound telescopes. According to Bruce Jones Sams III, an astrophysicists at Harvard University:
Photography is an important tool for astronomers to work with - both land and space-based. By combining results, we can learn far more than just from the results of one telescope observation alone. As Justin H. Howell wrote in a
1999 study
:
[caption id="attachment_132682" align="aligncenter" width="580"]
Image of Messier 30 (M 30, NGC 7099) was taken by Hubble's Advanced Camera for Surveys (ACS). Credit: NASA/ESA
[/caption]
So what happens when you dig even deeper with a different type of photography? Just ask the folks from Chandra - like Phyllis M. Lugger, who wrote in her study, "
Chandra X-ray Sources in the Collapsed-Core Globular Cluster M30 (NGC 7099)
":
History of Observation:
When Charles Messier first encountered this globular cluster in 1764, he was unable to resolve individual stars, and mistakenly believed it to be a nebula. As he wrote in his notes at the time:
[caption id="attachment_132683" align="aligncenter" width="580"]
Image of the core region of Messier 30 by the Hubble Space Telescope. Credit: NASA
[/caption]
However, we cannot fault Messier, for his job was to hunt comets and we thank him for logging this object for further study. Perhaps the first clue to M30's underlying potential came from Sir William Herschel, who often studied Messier's objects, but did not report his findings formally. In his personal notes he wrote:
So, as telescopes progressed and resolution improved, so did our way of thinking about what we were seeing... By Admiral Smyth's time, things had improved even more and so had the art of understanding more:
Throughout all historic observing notes, you'll find notations like "remarkable" and even Dreyer's famous exclamation points. Even though M30 may not be the easiest to find, nor the brightest of the Messier objects, it is still quite worthy of your time and attention!
[caption id="attachment_132685" align="aligncenter" width="580"]
The location of Messier 30, in the direction of the Scorpius constellation. Credit: IAU/Sky & Telescope magazine (Roger Sinnott & Rick Fienberg)
[/caption]
Locating Messier 30:
Finding M30 is not an easy task, unless you're using a GoTo telescope. In any other case, it's a starhop process, which must begin with identifying the the big grin-shape of the constellation of Capricornus. Once you've separated out this constellation, you'll begin to notice that many of its primary asterism stars are paired - which is a good thing! The northeastern most pair are Gamma and Delta, which is where binocular-users should start.
As you move slowly south and slightly west, you'll encounter your next wide pair - Chi and Epsilon. The next southwestern set is 36 Cap and Zeta. Now, from here you have two options! You can find Messier 30 a little more than a finger width east(ish) of Zeta (about half a binocular field)... or, you can return to Epsilon and look about one binocular field south (about 3 degrees) for star 41 which will appear just east of Messier 30 in the same field of view.
For the finderscope, star 41 is a critical giveaway to the globular cluster's position! It won't be visible to the unaided eye, but even a little magnification will reveal its presence. Using binoculars or a very small telescope, Messier 30 will appear as only a small, faded gray ball of light with a small star beside it. However, with telescope apertures as small as 4" you'll begin some resolution on this overlooked globular cluster and larger apertures will resolve it nicely.
And here are the quick facts on Messier 30 to help you get started:
- Object Name
-
Messier 30
- Alternative Designations
-
M30, NGC 7099
- Object Type
-
Class V Globular Cluster
Constellation
:
Capricornus
- Right Ascension
-
21 : 40.4 (h:m)
- Declination
-
-23 : 11 (deg:m
- Distance
-
26.1 (kly)
- Visual Brightness
-
7.2 (mag)
- Apparent Dimension
-
12.0 (arc min)
We have written many interesting articles about Messier Objects here at Universe Today. Here's Tammy Plotner's
Introduction to the Messier Objects
, ,
M1 – The Crab Nebula
,
M8 – The Lagoon Nebula
, and David Dickison's articles on the
2013
and
2014
Messier Marathons.
Be to sure to check out our complete
Messier Catalog
. And for more information, check out the
SEDS Messier Database
.
Sources: