Starship Asterisk*

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

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

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."

Atabakzadeh wrote:

Chris Peterson wrote:

Atabakzadeh wrote: and this panorama is 180°
I'm RIGHT.

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.

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.)

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?

Chris Peterson wrote:

Atabakzadeh wrote: and this panorama is 180°
I'm RIGHT.

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.

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.)

Atabakzadeh wrote: and this panorama is 180°
I'm RIGHT.

neufer wrote:

Chris Peterson wrote:

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?).

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.

I measure the distance between Antares & Aldebaran to be just slightly less than 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.

neufer wrote:

Chris Peterson wrote:

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?).

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.

I measure the distance between Antares & Aldebaran to be just slightly less than 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.

Chris Peterson wrote:

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?).

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:

Chris Peterson wrote:

neufer wrote: There is also the fact that one reason we can't see either Sun is that the land/sea gets in the way.

In this image, that's only by the design of the imager. It could have included a full 360° and the Sun using the same technique.

Well, yes, but 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?).

Chris Peterson wrote:

neufer wrote:

geckzilla wrote:
I get it now, but it's still a little under 360° due to whatever space the Sun takes up.

There is also the fact that one reason we can't see either Sun is that the land/sea gets in the way.

In this image, that's only by the design of the imager. It could have included a full 360° and the Sun using the same technique.

neufer wrote:

geckzilla wrote: I get it now, but it's still a little under 360° due to whatever space the Sun takes up.

There is also the fact that one reason we can't see either Sun is that the land/sea gets in the way.

geckzilla wrote:
I get it now, but it's still a little under 360° due to whatever space the Sun takes up.

• so all one really needs is a ruler to measure the full width of the screen.

                   ecliptic longitude       ecliptic latitude
-------------------------------------------------------------
Antares                249.762°                 -4.570°
Aldebaran               69.789°                 -5.467°

geckzilla wrote:

Atabakzadeh wrote:

neufer wrote: It's a space time composite shot from sunset west to sunrise east.

So, this should compose a 180 degrees panorama, not a 360 degrees.
Take your camera. Capture from west to east in upward direction. you should take about 10 pictures. Then combine theme.
It creates a 180 degrees panorama. You didn't take pictures from the earth under your feet. You just shoot from sky.

There's an old internet troll where someone pretends to be wrong and say "turn 360 degrees and walk away" and then when people correct them they laugh and tell them they fell for it. The editor made a mistake and is not trolling us, but it made me think of it.

Atabakzadeh wrote:

neufer wrote:

Atabakzadeh wrote:
This is 180 degrees panorama, not 360 degrees.
The camera shoot sky from west to east, in upward direction.
If this was a 360 degree panorama, then you could see the earth under your feet.
Am I right?

It's a space time composite shot from sunset west to sunrise east.

So, this should compose a 180 degrees panorama, not a 360 degrees.
Take your camera. Capture from west to east in upward direction. you should take about 10 pictures. Then combine theme.
It creates a 180 degrees panorama. You didn't take pictures from the earth under your feet. You just shoot from sky.

neufer wrote:

Atabakzadeh wrote:
This is 180 degrees panorama, not 360 degrees.
The camera shoot sky from west to east, in upward direction.
If this was a 360 degree panorama, then you could see the earth under your feet.
Am I right?

It's a space time composite shot from sunset west to sunrise east.

Atabakzadeh wrote:
This is 180 degrees panorama, not 360 degrees.
The camera shoot sky from west to east, in upward direction.
If this was a 360 degree panorama, then you could see the earth under your feet.
Am I right?

tomatoherd wrote:Wonderful image. Only one thing could have added a bit to helping me orient: maybe a faint pink line representing the celestial equator across the image....