APOD: All Planets Panorama (2017 Feb 25)
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- Asternaut
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Re: APOD: All Planets Panorama (2017 Feb 25)
I'm SURE, this is a 180° panorama as below:
1- Look to the horizon (e.g. west)
2- Turn your head up slowly until you see the sky above your head vertically.
2-1- Now you covered 90° of observable field. (right angle is 90°)
3- Continue rotating your head behind yourself to see the rest of the sky until you see the opposite side of horizon. (be carefull not to fall behind!)
3-1 Now you added other 90° to the previous viewed filed of sky.
So 90° + 90° makes 180° of total sky viewed.
The above method is VERTICAL observation, as this panorama made.
This panorama is NOT HORIZONTAL observation that camera rotates along to the horizon line.
The camera captured sky VERTICALLY.
and this panorama is 180°
I'm RIGHT.
1- Look to the horizon (e.g. west)
2- Turn your head up slowly until you see the sky above your head vertically.
2-1- Now you covered 90° of observable field. (right angle is 90°)
3- Continue rotating your head behind yourself to see the rest of the sky until you see the opposite side of horizon. (be carefull not to fall behind!)
3-1 Now you added other 90° to the previous viewed filed of sky.
So 90° + 90° makes 180° of total sky viewed.
The above method is VERTICAL observation, as this panorama made.
This panorama is NOT HORIZONTAL observation that camera rotates along to the horizon line.
The camera captured sky VERTICALLY.
and this panorama is 180°
I'm RIGHT.
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- Asternaut
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Re: APOD: All Planets Panorama (2017 Feb 25)
I'm SURE, this is a 180° panorama as below:neufer wrote:I measure the distance between Antares & Aldebaran to be just slightly less than half the width of the screen.Chris Peterson wrote:Well, that's not possible with an image that is made over only three days and which excludes the Sun. The Sun is at the western edge of Capricornus, so we are simply unable to record stars over much of Sagittarius and Capricornus. We can't help but to lose about 40° of stellar visibility along the ecliptic to the Sun's glare.neufer wrote:
... the question is whether the image as presented covers 360° along the ecliptic
(i.e., is the distance between Antares & Aldebaran half the width of the screen?).
That qualifies as a full 360° panorama along the ecliptic so far as I'm concerned
regardless of whether land and sea get in the way of seeing Sagittarius & Capricornus.
1- Look to the horizon (e.g. west)
2- Turn your head up slowly until you see the sky above your head vertically.
2-1- Now you covered 90° of observable field. (right angle is 90°)
3- Continue rotating your head behind yourself to see the rest of the sky until you see the opposite side of horizon. (be carefull not to fall behind!)
3-1 Now you added other 90° to the previous viewed filed of sky.
So 90° + 90° makes 180° of total sky viewed.
The above method is VERTICAL observation, as this panorama made.
This panorama is NOT HORIZONTAL observation that camera rotates along to the horizon line.
The camera captured sky VERTICALLY.
and this panorama is 180°
I'm RIGHT.
- neufer
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Re: APOD: All Planets Panorama (2017 Feb 25)
I'm SURE, this is a 360° panorama as below:
1- Look to the sunset horizon
2- Turn your head up slooooowly until you see the sky above your head vertically at midnight.
2-1- Now you covered 180° of observable field. (right angle is 90°)
3- Continue rotating your head behind yourself to see the rest of the sky until you see the sunrise horizon.
3-1 Now you added other 180° to the previous viewed filed of sky.
So 180° + 180° makes 360° of total sky viewed.[/quote]
1- Look to the sunset horizon
2- Turn your head up slooooowly until you see the sky above your head vertically at midnight.
2-1- Now you covered 180° of observable field. (right angle is 90°)
3- Continue rotating your head behind yourself to see the rest of the sky until you see the sunrise horizon.
3-1 Now you added other 180° to the previous viewed filed of sky.
So 180° + 180° makes 360° of total sky viewed.[/quote]
Art Neuendorffer
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Re: APOD: All Planets Panorama (2017 Feb 25)
No, you're not. You're not understanding how the image was made. It's a mosaic made between sunset and sunrise, as the sky was moving. It is possible with such an image to capture all of the ecliptic except about 20° on either side of the Sun, which will be too bright. Compare the image with any decent star map and you'll see that it covers a bit under 300° of starry sky.Atabakzadeh wrote: and this panorama is 180°
I'm RIGHT.
Think of it this way: if you want to observe some particular object along the ecliptic, you only have about a 50% chance of catching it at any given time. But if you wait all night, you can observe almost anywhere along it. (That's not just true for the ecliptic, of course. If you've ever done a Messier marathon, you know that the timing is critical- you start with objects low in the west after sunset and end with objects low in the east near sunrise.)
Last edited by Chris Peterson on Sun Mar 05, 2017 3:14 pm, edited 1 time in total.
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Re: APOD: All Planets Panorama (2017 Feb 25)
I'm reminded of the story Flatland. It can be hard to think in 4D.
Just as zero is not equal to infinity, everything coming from nothing is illogical.
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Re: APOD: All Planets Panorama (2017 Feb 25)
Oh, yeah, OK. You're really right. I do apologize.Chris Peterson wrote:No, you're not. You're not understanding how the image was made. It's a mosaic made between sunset and sunrise, as the sky was moving. It is possible with such an image to capture all of the ecliptic except about 20° on either side of the Sun, which will be too bright. Compare the image with any decent star map and you'll see that it covers a bit under 300° of starry sky.Atabakzadeh wrote: and this panorama is 180°
I'm RIGHT.
Think of it this way: if you want to observe some particular object along the ecliptic, you only have about a 50% chance of catching it at any given time. But if you wait all night, you can observe almost anywhere along it. (That's not just true for the ecliptic, of course. If you've ever done a Messier marathon, you know that the timing is critical- you start with objects low in the west after sunset and end with objects low in the east near sunrise.)
I forgot the rotation of the earth. So even if you fix your camera on tripod, you can take almost 180° panorama from sky, at night, without rotating your camera.
And this amazing picture is an almost 350-360° panorama (except the sun itself). Yes, it's true.
I'm so ashamed.
But I want to be a great astronomer. Can I?
Re: APOD: All Planets Panorama (2017 Feb 25)
If you want to be an astronomer, you have to consider what it takes to become one. I briefly considered becoming an astronomer myself, but then I realized I would have to work with equations all day (or a lot of the time anyway), and I knew that I couldn't do it. I became an astronomy nerd instead, getting my knowledge from reading and looking at pictures (and asking questions of other people, for example here at Starship Asterisk* - a great learning experience).Atabakzadeh wrote:Oh, yeah, OK. You're really right. I do apologize.Chris Peterson wrote:No, you're not. You're not understanding how the image was made. It's a mosaic made between sunset and sunrise, as the sky was moving. It is possible with such an image to capture all of the ecliptic except about 20° on either side of the Sun, which will be too bright. Compare the image with any decent star map and you'll see that it covers a bit under 300° of starry sky.Atabakzadeh wrote: and this panorama is 180°
I'm RIGHT.
Think of it this way: if you want to observe some particular object along the ecliptic, you only have about a 50% chance of catching it at any given time. But if you wait all night, you can observe almost anywhere along it. (That's not just true for the ecliptic, of course. If you've ever done a Messier marathon, you know that the timing is critical- you start with objects low in the west after sunset and end with objects low in the east near sunrise.)
I forgot the rotation of the earth. So even if you fix your camera on tripod, you can take almost 180° panorama from sky, at night, without rotating your camera.
And this amazing picture is an almost 350-360° panorama (except the sun itself). Yes, it's true.
I'm so ashamed.
But I want to be a great astronomer. Can I?
Ask yourself if you've got what it takes to become a professional astronomer. If you believe that you do, then go for it! Go to university, and work hard to get the money to do so.
But you should ask someone else, preferably Chris Peterson who is himself an astronomer, how you should go about to become an astronomer yourself.
And remember that even if you end up doing something else than astronomy for a living, astronomy is always there for you, for example here at Starship Asterisk*!
Ann
Color Commentator
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Re: APOD: All Planets Panorama (2017 Feb 25)
You could become a good astronomer, perhaps. You have learned to let go of a firmly held conviction when evidence called for adjusting your understanding. This was good for you Atabakzadeh, even though it was embarrassing. Even some once leading astronomers have found it so hard to let go of a wrong idea that their "greatness" has been tarnished. Being overly confident of the rightness of one's own understanding can block us off in the quest for truth.Atabakzadeh wrote:Oh, yeah, OK. You're really right. I do apologize.
I forgot the rotation of the earth. So even if you fix your camera on tripod, you can take almost 180° panorama from sky, at night, without rotating your camera.
And this amazing picture is an almost 350-360° panorama (except the sun itself). Yes, it's true.
I'm so ashamed.
But I want to be a great astronomer. Can I?
- "Knowledge puffs up,
love builds up."
Just as zero is not equal to infinity, everything coming from nothing is illogical.
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Re: APOD: All Planets Panorama (2017 Feb 25)
Thank you Ann for getting this clarification from Tunç Tezel. I had the same question.Ann wrote:Great image! It's fun to see the sky between two horizons, the eastern morning one at left and the western evening one at right.
Thanks a lot for the annotation! I would never have found Uranus, let alone Neptune, without it.
The labeling of Mercury is slightly confusing, though. Immediately to the upper left of the "M" in Mercury is a faint pinpoint of light, and I found myself wondering if that was Mercury. Much further from the "Mercury" lettering is a much brighter light, which would seem to be a much better match for the brightness I expect from Mercury.
Currently Mercury is magnitude −0.9, which makes it brighter than any star in the sky except Sirius. So I guess it is the bright light some distance away from the Mercury lettering that is the real Mercury.
Ann
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Re: APOD: All Planets Panorama (2017 Feb 25)
Thank you Tunç Tezel for this fabulous annotated image. How wonderful to be able to see the constellations this way as well as the planets. I have wanted a picture like this for a while; although, I'm not sure I could have articulated my desire as well as you fulfilled it.canopia wrote:Thanks Ann! Actually that faint looking dot is indeed Mercury. It was at mag. -0.2 back then; I had to shoot it with the intervening clouds and the twilight had already begun. The brighter light above Mercury is the Moon, which was a thin crescent with earthshine.
Tunç Tezel
http://www.twanight.org
Thank you, thank you!!
Most sincerely,
Sally