Starship Asterisk*

Cosmic ducks in a row wrote: ↑Tue Nov 01, 2022 10:38 pm I find the near-perfect alignment of those four big stars just provocative. The odds that it's just random? It's one thing to be in a birth cluster; here they look like they've been shot out of a pipe.

Chris Peterson wrote: ↑Tue Nov 01, 2022 9:17 pm

johnnydeep wrote: ↑Tue Nov 01, 2022 8:49 pm So how do the two fit? I'm still not seeing any resemblance or commonality at all:

That's because they are at very different scales. Today's APOD is a few degrees across. The HST image is a few arcminutes across.
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Lobster_Blanco_4000+HST.jpg

HellCat wrote: ↑Tue Nov 01, 2022 8:58 pm Lobster_Blanco_960_some_stars_circled.jpg

Chris Peterson wrote: ↑Tue Nov 01, 2022 2:00 pm

HellCat wrote: ↑Tue Nov 01, 2022 1:48 pm

I prefer to think that we are the ones who are upside down. The universe knows what it's doing.
Steve

PS - Oh yes! I logged in to find out why the stars in the bottom of the image are "fuzzy." I'm assuming a digital artifact?

What stars are "fuzzy"? All the stars in the image look the same to me.

Hi Chris. Poor wording on my part. Several of the stars in the lower center of the image appear over exposed.
I've annotated the image to show these. Unless they are all diffuse galaxies, I don't think I've seen stars like this.
Steve

johnnydeep wrote: ↑Tue Nov 01, 2022 8:49 pm So how do the two fit? I'm still not seeing any resemblance or commonality at all:

johnnydeep wrote: ↑Tue Nov 01, 2022 8:49 pm

Ann wrote: ↑Tue Nov 01, 2022 9:30 am

beryllium732 wrote: ↑Tue Nov 01, 2022 7:58 am Where is the star located exactly relative to the image? It doesn't resemble the picture from two years ago

https://apod.nasa.gov/apod/ap200830.html

APOD 1 November 2022 annotated.png

APOD 1 November 2022 detail.png

The star cluster in NGC 6357 is "upside down" compared to a previous APOD. Or maybe it is the previous APOD that is upside down.

Ann

So how do the two fit? I'm still not seeing any resemblance or commonality at all:


ngc 6357.JPG

Chris Peterson wrote: ↑Tue Nov 01, 2022 2:00 pm

HellCat wrote: ↑Tue Nov 01, 2022 1:48 pm

The star cluster in NGC 6357 is "upside down" compared to a previous APOD. Or maybe it is the previous APOD that is upside down.
Ann

I prefer to think that we are the ones who are upside down. The universe knows what it's doing.
Steve

PS - Oh yes! I logged in to find out why the stars in the bottom of the image are "fuzzy." I'm assuming a digital artifact?

What stars are "fuzzy"? All the stars in the image look the same to me.

Ann wrote: ↑Tue Nov 01, 2022 9:30 am

beryllium732 wrote: ↑Tue Nov 01, 2022 7:58 am Where is the star located exactly relative to the image? It doesn't resemble the picture from two years ago

https://apod.nasa.gov/apod/ap200830.html

APOD 1 November 2022 annotated.png

APOD 1 November 2022 detail.png

The star cluster in NGC 6357 is "upside down" compared to a previous APOD. Or maybe it is the previous APOD that is upside down.

A Hubble Space Telescope (HST) image of Pismis 24-1, the 'core' of NGC 6357. Image credit: NASA, ESA and Jesœs Maz Apellÿniz (Instituto de astrofsica de Andaluca, Spain). Acknowledgement: Davide De Martin

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Ann

Chris Peterson wrote: ↑Tue Nov 01, 2022 1:14 pm

orin stepanek wrote: ↑Tue Nov 01, 2022 1:00 pm model-decam.jpg
Dark Energy Camera!
If we can't see dark energy; how cac we take pictures of it???

What does "see" mean? Almost everything we think we know about the Universe is from stuff that we can't really see. We can't see hydrogen, all we get is photons that have a certain energy and from which we infer the presence of that element... never measured or detected directly. Astronomy is the science of indirect detection. Other than a few bits of matter from our own solar system, pretty much everything is photons and energetic particles, and what we can conclude from measuring them. We "see" hydrogen by making assumptions about radio waves and red light. We "see" dark matter by measuring Doppler shifts to derive the motion of material, and make inferences about the gravitational fields that produce such motion. We "see" dark energy by measuring cosmological redshifts and making inferences about the relationships between distance and expansion rates, and conclude something about the forces or properties that drive them.

This camera was constructed for a project that surveyed millions of distant galaxies to add to the database of information used to clarify theory regarding dark energy. Hence, its name.

HellCat wrote: ↑Tue Nov 01, 2022 1:48 pm

The star cluster in NGC 6357 is "upside down" compared to a previous APOD. Or maybe it is the previous APOD that is upside down. :wink:
Ann

I prefer to think that we are the ones who are upside down. The universe knows what it's doing.
Steve

PS - Oh yes! I logged in to find out why the stars in the bottom of the image are "fuzzy." I'm assuming a digital artifact?

The star cluster in NGC 6357 is "upside down" compared to a previous APOD. Or maybe it is the previous APOD that is upside down.
Ann

orin stepanek wrote: ↑Tue Nov 01, 2022 1:00 pm model-decam.jpg
Dark Energy Camera!
If we can't see dark energy; how cac we take pictures of it???

APOD Robot wrote:

NGC 6357 spans about 400 light years and lies about 8,000 light years away toward the constellation of the Scorpion.

Wikipedia wrote about NGC 6357:

It is located about ~5,500 light years away from Earth.

beryllium732 wrote: ↑Tue Nov 01, 2022 7:58 am Where is the star located exactly relative to the image? It doesn't resemble the picture from two years ago

https://apod.nasa.gov/apod/ap200830.html