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IHateClouds wrote: ↑January 19th, 2020, 6:04 pm

Locoholic wrote: ↑January 19th, 2020, 2:36 pm
1. Rank these stars from brightest to dimmest when viewed in the night sky: Arcturus, Sirius, Vega, Betelgeuse, Antares, Rigel, Procyon, Capella.

2. What is the limit for stars to be considered to be First Magnitude?

3. After which theoretical mass does a star begin to use the CNO cycle more than the proton-proton chain as a method of nucleosynthesis?

1. out of curiousity, how would you go about this other than checking the apparent magnitude of all the stars? like do you keep a list of the stars in order of apparent and aboslute mag on your cheat sheet? altho even that seems slow anyway...

sirius: -1.46
arcturus: -.05
capella: .08
rigel: .13
vega: .026
procyon: .34
betelguese: .5
antares: 1.1

2. less than an apparent magnitude of 1->"first"

3. over 1mass of sun/M

Locoholic wrote: ↑January 19th, 2020, 8:31 pm 1. Correct, I simply listed the top 10 brightest stars in my cheat sheet as a good reference. One would have to find the apparent magnitudes of the other stars, though.
2. It’s actually +1.5. 3. 1.3 Solar Masses. Your turn!

IHateClouds wrote: ↑January 20th, 2020, 7:15 am

Locoholic wrote: ↑January 19th, 2020, 8:31 pm 1. Correct, I simply listed the top 10 brightest stars in my cheat sheet as a good reference. One would have to find the apparent magnitudes of the other stars, though.
2. It’s actually +1.5. 3. 1.3 Solar Masses. Your turn!

Cool!

1. what two galaxies are the antennae galaxies?
2. what two galaxies are the mice galaxies
3. what is odd about the colors of the mice galaxies?

anandymous wrote: ↑January 20th, 2020, 8:17 am 1. Ngc 4038 and Ngc 4039 2. Ngc 4676A and Ngc 4676B 3. The tail starts out blue then turns yellow, even tho spiral arms start yellow then turn blue

anandymous wrote: ↑January 20th, 2020, 8:57 am 1. What do X-Ray images depict in galaxies (2 things).
2. What do Ultraviolet images depict in galaxies (2 things).
3. What do Infrared images depict in galaxies (2 things).

Locoholic wrote: ↑January 20th, 2020, 11:28 am

anandymous wrote: ↑January 20th, 2020, 8:57 am 1. What do X-Ray images depict in galaxies (2 things).
2. What do Ultraviolet images depict in galaxies (2 things).
3. What do Infrared images depict in galaxies (2 things).

1. X-Ray emissions are usually shown in blue in composite images. X-Ray images alone usually show only very hot regions and x-ray binaries. 2. Shows clouds of gas containing protostars which are a lot more massive than the sun. Other UV sources are stars in late evolutionary stages. 3. Infrared pierces through clouds and dust and can depict many star-forming regions and other nebulae in a better view. Not sure if I got these right, but that's fine.

anandymous wrote: ↑January 20th, 2020, 12:00 pm

Locoholic wrote: ↑January 20th, 2020, 11:28 am

anandymous wrote: ↑January 20th, 2020, 8:57 am 1. What do X-Ray images depict in galaxies (2 things).
2. What do Ultraviolet images depict in galaxies (2 things).
3. What do Infrared images depict in galaxies (2 things).

1. X-Ray emissions are usually shown in blue in composite images. X-Ray images alone usually show only very hot regions and x-ray binaries. 2. Shows clouds of gas containing protostars which are a lot more massive than the sun. Other UV sources are stars in late evolutionary stages. 3. Infrared pierces through clouds and dust and can depict many star-forming regions and other nebulae in a better view. Not sure if I got these right, but that's fine.

1. this is kinda nitpicky, the hot regions are usually gas and the stars don't have to be binaries. other than that its correct 2. correct 3. U got clouds and dust, but the other thing i was going for was heat in general (that was just for consistency of having 2 things) Your turn!

Locoholic wrote: ↑January 20th, 2020, 12:35 pm

anandymous wrote: ↑January 20th, 2020, 12:00 pm

Locoholic wrote: ↑January 20th, 2020, 11:28 am

1. X-Ray emissions are usually shown in blue in composite images. X-Ray images alone usually show only very hot regions and x-ray binaries. 2. Shows clouds of gas containing protostars which are a lot more massive than the sun. Other UV sources are stars in late evolutionary stages. 3. Infrared pierces through clouds and dust and can depict many star-forming regions and other nebulae in a better view. Not sure if I got these right, but that's fine.

1. this is kinda nitpicky, the hot regions are usually gas and the stars don't have to be binaries. other than that its correct 2. correct 3. U got clouds and dust, but the other thing i was going for was heat in general (that was just for consistency of having 2 things) Your turn!

Cool, thanks!

Radiation/Spectra

1. What is the difference between synchrotron and cyclotron radiation?
2. Which spectral type has the weakest hydrogen absorption lines?
3. Which spectral type is the most metallic?

anandymous wrote: ↑January 20th, 2020, 12:00 pm 1. synchrotron radiation is released in bursts (small time period) while cyclotron radiation is released in cycles of varying amounts??? just a guess lol 2. M 3. M