by Ann » Mon Apr 26, 2021 10:16 am
I love this image! The colors and details are splendid. I have annotated the image.
Here's what the annotations mean. I'm adding information about the parallaxes of all the stars. The smaller the parallax, the farther away is the star, and the intrinsically brighter it is. I leave it to you math-savvy people to figure out how far the different stars are!
1) HD 166464, K0III, B-V 1.05, parallax 12.6303 [0.2449] Foreground star, slightly similar to Pollux.
2) HD 166033 OB, B-V 0.04, parallax 0.7202 [0.0535] Both emission and reflection. Creates nebula
IC 1274. Image by R Jay GaBany.
3) HD 166056 B2V, by red ridge nebula
NGC 6559. B-V 0.26, parallax 0.6279 [0.0603]. Image from Wikipedia.
4) HD 165921, O7V(n)z+B0:V, B-V 0.08, parallax 0.9082 [0.0563], large rather faint magenta nebula
5) TYC 6842-1630-1, OB, B-V 0.10, parallax 0.7481 [0.0548] Blue reflection nebula created by blue star, close to orange star.
6) 9 Sgr, O4V((f))z, B-V 0.03, parallax 0.8505 [0.0952] Brightest star in the Lagoon Nebula.
7) HD 164492, O7.5V, B-V 0.0, parallax 0.6376 [0.0873]
Brightest star in the Trifid nebula. Picture from ESA/Hubble.
8) 4 Sgr, A0 E, B-V -0.03, parallax 8.3677 [0.4521] Foreground star. A bright Vega?
As you can see, most of the stars have really small parallaxes, smaller than one milliarcsecond. This means that these stars and nebulas are much farther away than the nebulas and bright stars in Orion. The parallaxes I have quoted are from Gaia and should be correct, which means we should have a pretty good handle on how far away these stars are by converting parallaxes to light-years.
So, you math people out there, I challenge you! Will you figure out the distances to these stars for me?
Ann
I love this image! The colors and details are splendid. I have annotated the image.
[float=left][attachment=0]Sagittarius Triplet annotated Gabriel Rodrigues Santos.png[/attachment][/float]
[clear][/clear]
Here's what the annotations mean. I'm adding information about the parallaxes of all the stars. The smaller the parallax, the farther away is the star, and the intrinsically brighter it is. I leave it to you math-savvy people to figure out how far the different stars are! :D
1) HD 166464, K0III, B-V 1.05, parallax 12.6303 [0.2449] Foreground star, slightly similar to Pollux.
2) HD 166033 OB, B-V 0.04, parallax 0.7202 [0.0535] Both emission and reflection. Creates nebula [url=https://www.cosmotography.com/images/small_close2_ngc6559.jpg]IC 1274[/url]. Image by R Jay GaBany.
3) HD 166056 B2V, by red ridge nebula [url=https://upload.wikimedia.org/wikipedia/commons/thumb/9/93/The_star_formation_region_NGC_6559.jpg/1024px-The_star_formation_region_NGC_6559.jpg]NGC 6559[/url]. B-V 0.26, parallax 0.6279 [0.0603]. Image from Wikipedia.
4) HD 165921, O7V(n)z+B0:V, B-V 0.08, parallax 0.9082 [0.0563], large rather faint magenta nebula
5) TYC 6842-1630-1, OB, B-V 0.10, parallax 0.7481 [0.0548] Blue reflection nebula created by blue star, close to orange star.
6) 9 Sgr, O4V((f))z, B-V 0.03, parallax 0.8505 [0.0952] Brightest star in the Lagoon Nebula.
7) HD 164492, O7.5V, B-V 0.0, parallax 0.6376 [0.0873] [url=http://cdn.spacetelescope.org/archives/images/screen/opo0417b.jpg]Brightest star in the Trifid nebula.[/url] Picture from ESA/Hubble.
8) 4 Sgr, A0 E, B-V -0.03, parallax 8.3677 [0.4521] Foreground star. A bright Vega?
As you can see, most of the stars have really small parallaxes, smaller than one milliarcsecond. This means that these stars and nebulas are much farther away than the nebulas and bright stars in Orion. The parallaxes I have quoted are from Gaia and should be correct, which means we should have a pretty good handle on how far away these stars are by converting parallaxes to light-years.
So, you math people out there, I challenge you! Will you figure out the distances to these stars for me?
Ann