APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

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Expand view Topic review: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by Chris Peterson » Thu Oct 03, 2019 1:48 pm

Boomer12k wrote: Thu Oct 03, 2019 2:09 am The "Reindeer Rat-thingy" nebula...

I think a better term is "Dispersed" rather than evaporating...I don't thing dust becomes a vapor, doesn't it just "move off"?
While "evaporate" certainly has the meaning of a state change between liquid and gas, that is far from its only meaning.

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by Ann » Thu Oct 03, 2019 12:43 pm

What David Malin meant, I think, is that the dust particles themselves get a lot smaller when they are hit by hard ultraviolet radiation and strong winds from hot massive stars.

Take a look at the dust grain at right. It looks large and fluffy, doesn't it? I guess hard radiation and strong winds could break it up.

Ann

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by orin stepanek » Thu Oct 03, 2019 11:26 am

Ann wrote: Thu Oct 03, 2019 4:50 am
Boomer12k wrote: Thu Oct 03, 2019 2:09 am The "Reindeer Rat-thingy" nebula...

I think a better term is "Dispersed" rather than evaporating...I don't thing dust becomes a vapor, doesn't it just "move off"?

:---[===] *
David Malin once told me (in a private conversation) that dust particles are "cooked" to a smaller size near hot stars. I guess that means that they have evaporated or dispersed.

Or at least shrunk considerably!

Ann
Don't know; but, when something evaporates; doesn't the molecules get further apart? Same with dispersing; do particles or whatever separate? similar? Maybe! :roll: :?

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by Ann » Thu Oct 03, 2019 4:50 am

Boomer12k wrote: Thu Oct 03, 2019 2:09 am The "Reindeer Rat-thingy" nebula...

I think a better term is "Dispersed" rather than evaporating...I don't thing dust becomes a vapor, doesn't it just "move off"?

:---[===] *
David Malin once told me (in a private conversation) that dust particles are "cooked" to a smaller size near hot stars. I guess that means that they have evaporated or dispersed.

Or at least shrunk considerably!

Ann

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by Boomer12k » Thu Oct 03, 2019 2:09 am

The "Reindeer Rat-thingy" nebula...

I think a better term is "Dispersed" rather than evaporating...I don't thing dust becomes a vapor, doesn't it just "move off"?

:---[===] *

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by FLPhotoCatcher » Wed Oct 02, 2019 10:12 pm

neufer wrote: Wed Oct 02, 2019 8:44 pm
dlw wrote: Wed Oct 02, 2019 7:03 pm
Thanks for that explanation but it begs the question (in my mind) -- why is the illumination just at the edges from our perspective? If the recombination with the ionized boundary layer causes the glow, why doesn't the entire "cloud" appear to glow? Simplistically, it appears that a very bright object is behind the "cloud" which is why we see only the edges illuminated. Sorry to be so dense . . .
The shock has not yet entered & ionized the dark part of the cloud.
The glowing around the clouds are not caused by shock waves or supernova remnants, just starlight.
As for dlw's question, the illumination is not just at the edges, but most easily seen there, due to our line of sight being longer through the thin glowing gas around the clouds. You can see some glowing in front of the biggest cloud (and some other clouds), but your eye may incorrectly interpret that as thinner areas in the cloud allowing light to pass through.

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by neufer » Wed Oct 02, 2019 10:05 pm

MarkBour wrote: Wed Oct 02, 2019 9:01 pm
orin stepanek wrote: Wed Oct 02, 2019 7:29 pm
dlw wrote: Wed Oct 02, 2019 7:03 pm
Thanks for that explanation but it begs the question (in my mind) -- why is the illumination just at the edges from our perspective? If the recombination with the ionized boundary layer causes the glow, why doesn't the entire "cloud" appear to glow? Simplistically, it appears that a very bright object is behind the "cloud" which is why we see only the edges illuminated. Sorry to be so dense . . .

I don't know ; maybe kinda like this! Probably they are back lit and the thicker part of the cloud dont allow light to go through! Hope this helps!
Good pun, there, dlw. And I think your question is quite intelligent. I think an emission nebula (particularly a molecular cloud that is being ionized by nearby sources) might appear brightest around the edges whenever the UV sources are appropriately located. And, if they are not so located, they don't appear to have bright edges. So, here are a few ...
In other words, I agree with orin, I think our caterpildog is actually back- or side-lit.
Click to play embedded YouTube video.
Bright Rimmed Clouds (BRCs) have been studied extensively :!: :

http://asterisk.apod.com/viewtopic.php? ... 55#p295823

"Our caterpildog" is clearly glowing all over his body
but the rim edge concentrates the glow like the edge of a bubble.
  • Don't over think this. :arrow:

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by MarkBour » Wed Oct 02, 2019 9:01 pm

orin stepanek wrote: Wed Oct 02, 2019 7:29 pm
dlw wrote: Wed Oct 02, 2019 7:03 pm Thanks for that explanation but it begs the question (in my mind) -- why is the illumination just at the edges from our perspective? If the recombination with the ionized boundary layer causes the glow, why doesn't the entire "cloud" appear to glow? Simplistically, it appears that a very bright object is behind the "cloud" which is why we see only the edges illuminated. Sorry to be so dense . . .
I don't know ; maybe kinda like this! Probably they are back lit and the thicker part of the cloud dont allow light to go through! Hope this helps!

images.jpg
Good pun, there, dlw. And I think your question is quite intelligent. I think an emission nebula (particularly a molecular cloud that is being ionized by nearby sources) might appear brightest around the edges whenever the UV sources are appropriately located. And, if they are not so located, they don't appear to have bright edges. So, here are a few ...
Capture.JPG
The ring nebula, LHA 120-N 55, NGC 2174, and the Pelican nebula.
(All images just stolen off the net.)
In other words, I agree with orin, I think our caterpildog is actually back- or side-lit.

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by neufer » Wed Oct 02, 2019 8:44 pm

dlw wrote: Wed Oct 02, 2019 7:03 pm
Thanks for that explanation but it begs the question (in my mind) -- why is the illumination just at the edges from our perspective? If the recombination with the ionized boundary layer causes the glow, why doesn't the entire "cloud" appear to glow? Simplistically, it appears that a very bright object is behind the "cloud" which is why we see only the edges illuminated. Sorry to be so dense . . .
The shock has not yet entered & ionized the dark part of the cloud.

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by dlw » Wed Oct 02, 2019 8:21 pm

Yes - that is why I suggested exactly that in my post. However, there are at least 10 "clouds" with glowing edges in that image. It would seem unlikely that each has a bright star directly behind it from our vantage point.

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by orin stepanek » Wed Oct 02, 2019 7:29 pm

dlw wrote: Wed Oct 02, 2019 7:03 pm Thanks for that explanation but it begs the question (in my mind) -- why is the illumination just at the edges from our perspective? If the recombination with the ionized boundary layer causes the glow, why doesn't the entire "cloud" appear to glow? Simplistically, it appears that a very bright object is behind the "cloud" which is why we see only the edges illuminated. Sorry to be so dense . . .
I don't know ; maybe kinda like this! Probably they are back lit and the thicker part of the cloud dont allow light to go through! Hope this helps!
images.jpg
images.jpg (4.77 KiB) Viewed 7315 times

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by dlw » Wed Oct 02, 2019 7:03 pm

Thanks for that explanation but it begs the question (in my mind) -- why is the illumination just at the edges from our perspective? If the recombination with the ionized boundary layer causes the glow, why doesn't the entire "cloud" appear to glow? Simplistically, it appears that a very bright object is behind the "cloud" which is why we see only the edges illuminated. Sorry to be so dense . . .

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by neufer » Wed Oct 02, 2019 6:21 pm

dlw wrote: Wed Oct 02, 2019 4:46 pm
What causes the bright rims? Seems rather odd.
https://nitarp.ipac.caltech.edu/system/media_files/binaries/14/original/brcproposal.pdf?1363992832 wrote:
Young Stellar Objects in Bright Rimmed Clouds
Chelen H. Johnson, Breck School, Minneapolis

<<Stars are born in nebulae, giant molecular clouds of gas and dust found in abundance within disk components of spiral galaxies, including our own. Star formation may be triggered in a molecular cloud by shock waves from a variety of sources including explosion of supernovae, ignition of a very hot nearby star, collisions with another molecular cloud, or density waves within spiral arms. A very large cloud typically contracts to form hundreds (or more) individual stars. During their formation process, protostars are shielded within their nebula, leading to the characterization of nebulae as stellar nurseries. The earliest phases of a protostar’s life are spent deep inside their natal dust cocoon, which absorbs most of the visible radiation produced by the protostar and obscures the protostar from view in the optical. The energy from the protostar warms the dust, which then re-radiates the energy from the protostar as infrared (IR) radiation. Thus, protostars are detectable within their circumstellar material at infrared wavelengths. Jets from hidden protostars may also announce the presence of the still hidden protostar. Bright Rimmed Clouds (BRCs) exist at the edge of HII regions. They are clouds that have experienced compression (and illumination) due to an external ionization shock from nearby massive stars, which served to focus the neutral gas into compact globules (Morgan et al. 2004, Valdetarro et al. 2008) and possibly trigger star formation. Additionally, Morgan (2004) reports that recombination with the ionized boundary layer allows the BRC to be seen at optical wavelengths, hence “bright rimmed.” These clouds generally have a radius of less than 0.5 parsecs, with an average mass about 100 solar masses. Attention has turned to BRCs as potential loci for star formation. Since the ionization front is compressing the gas and dust, the region near the boundary between neutral gas and gas ionized by incident photons is thought to be rich in potential sites for star formation. Sugitani et al. (1991) classify BRCs based on their rim morphology: type A, B, and C with moderately curved, tightly curved, and cometary curved rims, respectively. Using Spitzer’s Infrared Array Camera (IRAC), Allen et al. imaged 32 of the closest BRCs located at estimated distances d < 1.2 kiloparsecs, finding young stellar objects in 75% of the clouds studied.>>

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by dlw » Wed Oct 02, 2019 4:46 pm

What causes the bright rims? Seems rather odd.

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by orin stepanek » Wed Oct 02, 2019 4:38 pm

neufer wrote: Wed Oct 02, 2019 3:12 pm
Cousin Ricky wrote: Wed Oct 02, 2019 1:50 pm
orin stepanek wrote: Tue Oct 01, 2019 10:40 am

  • Looks like a cross between a dog and a tardigrade to me.
Magic likes to play peekaboo! I think she would run from a caterpillar! :lol2:

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by orin stepanek » Wed Oct 02, 2019 4:30 pm

Ann wrote: Wed Oct 02, 2019 12:53 pm
orin stepanek wrote: Wed Oct 02, 2019 11:28 am McloudsCarina_Hubble_1080.jpg
Ann wrote: Wed Oct 02, 2019 4:27 am Caterpillar!!! I love it!

And the many-peded thing seems to be looking at a cosmic bunny rabbit in wild flight! Look at the white behind and the two dark hind legs, as the cosmic lepus is trying to get away!

Ann

Kinda; sorta, Looks like the caterpillar has a dog's head sniffing out a fresh scent! :mrgreen:
A dog-erpillar! :puppy: :kitty:

Ann
Hey! You invented a new creature!

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by neufer » Wed Oct 02, 2019 3:12 pm

Cousin Ricky wrote: Wed Oct 02, 2019 1:50 pm
orin stepanek wrote: Tue Oct 01, 2019 10:40 am

  • Looks like a cross between a dog and a tardigrade to me.

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by Cousin Ricky » Wed Oct 02, 2019 1:50 pm

Looks like a cross between a dog and a tardigrade to me.

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by Ann » Wed Oct 02, 2019 1:42 pm

neufer wrote: Wed Oct 02, 2019 12:19 pm
Ann wrote: Wed Oct 02, 2019 4:27 am
And the many-peded thing seems to be looking at a cosmic bunny rabbit in wild flight!

Look at the white behind and the two dark hind legs, as the cosmic lepus is trying to get away!
https://en.wikipedia.org/wiki/Aplysia_dactylomela wrote:

<<Aplysia dactylomela, the spotted sea hare, is a species of large sea slug, a marine opisthobranch gastropod in the family Aplysiidae, the sea hares. As traditionally defined, this species of sea hare was cosmopolitan, being found in almost all tropical and warm temperate seas, including the Mediterranean Sea where first seen in 2002 and likely self-established due to increasing temperatures.

The colour of the spotted sea hare is very variable, from pale gray to green, to dark brown. There are almost always large black rings on the mantle. The maximum recorded length is 410 mm.

Aplysia dactylomela is commonly found in shallow waters, tide pools and rocky and sandy substrates, they also will be found feeding in beds of sea grass. During the day they will mostly hide under large rocks and in crevices. They usually stay in relatively shallow water, but they have been found as deep as 40 m.

The right giant neuron of Aplysia dactylomela, which is found in the abdominal ganglion, is similar to that of vertebrates, meaning it is ideal for the study of electrophysiology, as well as conditioned-response studies. These neurons have been found to be invaluable in neurological research; the reason for this is that long-lasting effects in neuronal behavior can be detected.


The Aplysia dactylomela is capable of swimming and crawling. It accomplishes the former by creating a funnel using the parapodia folded forward and downwards; this action pulls in water. It then pushes the water out from behind the animal by pressing the anterior parts of the parapodia together, thus forward motion is achieved. The sea hare's usual mode of propulsion is crawling; it crawls by lifting the front end of the foot, stretching it forward then placing it on the ground in front, creating an arching pattern; the remainder of the body follows this arching pattern until the tail is reached.

Like the octopus, the Aplysia dactylomela squirts purple ink if it is disturbed; this ink is an irritant that causes 'altered behaviour' in other invertebrates and fish. Their leathery skin contains toxins which make this sea hare practically inedible to most predators.>>
Perfectly perfect, Art. And slightly disgusting. Sorry, Aplysia dactylomela, I didn't mean to slight you. You are a marine opisthobranch gastropod sea slug after all, and you are cosmopolitan! That's an impressive pedigree indeed, and you are apparently urbane and cool, too!

Ann

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by Ann » Wed Oct 02, 2019 1:38 pm

AVAO wrote: Wed Oct 02, 2019 5:29 am
Ann wrote: Wed Oct 02, 2019 4:27 am Caterpillar!!! I love it! :D

And the many-peded thing seems to be looking at a cosmic bunny rabbit in wild flight! Look at the white behind and the two dark hind legs, as the cosmic lepus is trying to get away!

Ann
... or Milnesium tardigradum in space (water bear). like it
Perfect, AVAO!

Ann

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by TheZuke! » Wed Oct 02, 2019 1:33 pm

I see a dormouse with its tail sticking straight up, just a bit right of the wabbit.

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by Ann » Wed Oct 02, 2019 12:53 pm

orin stepanek wrote: Wed Oct 02, 2019 11:28 am McloudsCarina_Hubble_1080.jpg
Ann wrote: Wed Oct 02, 2019 4:27 am Caterpillar!!! I love it!

And the many-peded thing seems to be looking at a cosmic bunny rabbit in wild flight! Look at the white behind and the two dark hind legs, as the cosmic lepus is trying to get away!

Ann

Kinda; sorta, Looks like the caterpillar has a dog's head sniffing out a fresh scent! :mrgreen:
A dog-erpillar! :puppy: :kitty:

Ann

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by neufer » Wed Oct 02, 2019 12:19 pm

Ann wrote: Wed Oct 02, 2019 4:27 am
And the many-peded thing seems to be looking at a cosmic bunny rabbit in wild flight!

Look at the white behind and the two dark hind legs, as the cosmic lepus is trying to get away!
https://en.wikipedia.org/wiki/Aplysia_dactylomela wrote:

<<Aplysia dactylomela, the spotted sea hare, is a species of large sea slug, a marine opisthobranch gastropod in the family Aplysiidae, the sea hares. As traditionally defined, this species of sea hare was cosmopolitan, being found in almost all tropical and warm temperate seas, including the Mediterranean Sea where first seen in 2002 and likely self-established due to increasing temperatures.

The colour of the spotted sea hare is very variable, from pale gray to green, to dark brown. There are almost always large black rings on the mantle. The maximum recorded length is 410 mm.

Aplysia dactylomela is commonly found in shallow waters, tide pools and rocky and sandy substrates, they also will be found feeding in beds of sea grass. During the day they will mostly hide under large rocks and in crevices. They usually stay in relatively shallow water, but they have been found as deep as 40 m.

The right giant neuron of Aplysia dactylomela, which is found in the abdominal ganglion, is similar to that of vertebrates, meaning it is ideal for the study of electrophysiology, as well as conditioned-response studies. These neurons have been found to be invaluable in neurological research; the reason for this is that long-lasting effects in neuronal behavior can be detected.

The Aplysia dactylomela is capable of swimming and crawling. It accomplishes the former by creating a funnel using the parapodia folded forward and downwards; this action pulls in water. It then pushes the water out from behind the animal by pressing the anterior parts of the parapodia together, thus forward motion is achieved. The sea hare's usual mode of propulsion is crawling; it crawls by lifting the front end of the foot, stretching it forward then placing it on the ground in front, creating an arching pattern; the remainder of the body follows this arching pattern until the tail is reached.

Like the octopus, the Aplysia dactylomela squirts purple ink if it is disturbed; this ink is an irritant that causes 'altered behaviour' in other invertebrates and fish. Their leathery skin contains toxins which make this sea hare practically inedible to most predators.>>

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by orin stepanek » Wed Oct 02, 2019 11:28 am

McloudsCarina_Hubble_1080.jpg
Ann wrote: Wed Oct 02, 2019 4:27 am Caterpillar!!! I love it! :D

And the many-peded thing seems to be looking at a cosmic bunny rabbit in wild flight! Look at the white behind and the two dark hind legs, as the cosmic lepus is trying to get away!

Ann

Kinda; sorta, Looks like the caterpillar has a dog's head sniffing out a fresh scent! :mrgreen:

Re: APOD: Molecular Clouds in the Carina Nebula (2019 Oct 02)

by AVAO » Wed Oct 02, 2019 5:29 am

Ann wrote: Wed Oct 02, 2019 4:27 am Caterpillar!!! I love it! :D

And the many-peded thing seems to be looking at a cosmic bunny rabbit in wild flight! Look at the white behind and the two dark hind legs, as the cosmic lepus is trying to get away!

Ann
... or Milnesium tardigradum in space (water bear). like it

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