APOD: Barnard 150: Seahorse in Cepheus (2018 Oct 25)

Comments and questions about the APOD on the main view screen.
Post Reply
User avatar
APOD Robot
Otto Posterman
Posts: 5591
Joined: Fri Dec 04, 2009 3:27 am
Contact:

APOD: Barnard 150: Seahorse in Cepheus (2018 Oct 25)

Post by APOD Robot » Thu Oct 25, 2018 4:05 am

Image Barnard 150: Seahorse in Cepheus

Explanation: Light-years across, this suggestive shape known as the Seahorse Nebula appears in silhouette against a rich, luminous background of stars. Seen toward the royal northern constellation of Cepheus, the dusty, obscuring clouds are part of a Milky Way molecular cloud some 1,200 light-years distant. It is also listed as Barnard 150 (B150), one of 182 dark markings of the sky cataloged in the early 20th century by astronomer E. E. Barnard. Packs of low mass stars are forming within from collapsing cores only visible at long infrared wavelengths. Still, colorful stars in Cepheus add to the pretty, galactic skyscape.

<< Previous APOD This Day in APOD Next APOD >>

User avatar
Ann
4725 Å
Posts: 13840
Joined: Sat May 29, 2010 5:33 am

Re: APOD: Barnard 150: Seahorse in Cepheus (2018 Oct 25)

Post by Ann » Thu Oct 25, 2018 4:28 am

Three reflections here. One, the seahorse looks kind of emaciated and weak. Therefore, only low-mass stars can form inside it.

Two, the Seahorse is very elongated (and twisted). Very many starforming molecular clouds in the Milky Way are very elongated. Perhaps they have become elongated due to magnetic forces?

Three, there are elongated molecular clouds that are much heftier than the Seahorse, and which therefore give birth to much more massive stars. At left you can see a Spitzer Space Telescope image of a cosmic "snake", seen at top left in the picture, which is forming truly massive stars. One of the huge baby stars being born is seen close to the middle of the "snake" as a glaring red eye.

Ann
Color Commentator

Tragic Astronomy
Ensign
Posts: 19
Joined: Tue Oct 23, 2018 5:51 pm

Re: APOD: Barnard 150: Seahorse in Cepheus (2018 Oct 25)

Post by Tragic Astronomy » Thu Oct 25, 2018 7:41 am

Thoroughbred with their great big heads
Think a mile might be too far
Highway horses laugh but of course
When they don't know where the hell they are


User avatar
MarkBour
Subtle Signal
Posts: 1377
Joined: Mon Aug 26, 2013 2:44 pm
Location: Illinois, USA

Re: APOD: Barnard 150: Seahorse in Cepheus (2018 Oct 25)

Post by MarkBour » Thu Oct 25, 2018 7:49 pm

Ann wrote: Thu Oct 25, 2018 4:28 am ...
Two, the Seahorse is very elongated (and twisted). Very many starforming molecular clouds in the Milky Way are very elongated. Perhaps they have become elongated due to magnetic forces?
...
Ann
Good point, that elongated shapes are common among star-forming regions. I have read that such things as the seahorse and the snake have been hypothesized to have arisen from the shock waves from nearby supernovae. Whether magnetism could also be an influencing or contributing factor sounds interesting. What would be the source of it? I guess the galactic plane itself has a field.
Mark Goldfain

User avatar
neufer
Vacationer at Tralfamadore
Posts: 18805
Joined: Mon Jan 21, 2008 1:57 pm
Location: Alexandria, Virginia

Re: APOD: Barnard 150: Seahorse in Cepheus (2018 Oct 25)

Post by neufer » Thu Oct 25, 2018 8:30 pm

https://en.wikipedia.org/wiki/Dark_nebula wrote:

<<A dark nebula or absorption nebula is a type of interstellar cloud that is so dense that it obscures the light from objects behind it. These clouds are the spawning grounds of stars and planets. The extinction of the light is caused by interstellar dust grains located in the coldest, densest parts of larger molecular clouds. Clusters and large complexes of dark nebulae are associated with Giant Molecular Clouds. Isolated small dark nebulae are called Bok globules. The form of such dark clouds is very irregular: they have no clearly defined outer boundaries and sometimes take on convoluted serpentine shapes. The largest dark nebulae are visible to the naked eye, appearing as dark patches against the brighter background of the Milky Way like the Coalsack Nebula and the Great Rift.

Dark clouds appear so because of sub-micrometre-sized dust particles, coated with frozen carbon monoxide and nitrogen, which effectively block the passage of light at visible wavelengths. Also present are [relatively transparent] molecular hydrogen, atomic helium, C18O, CS, NH3 (ammonia), H2CO (formaldehyde), c-C3H2 (cyclopropenylidene) and a molecular ion N2H+ (diazenylium).>>
Art Neuendorffer

Post Reply