Starship Asterisk*

[quote="Dario Giannobile" post_id=330825 time=1683486430]
It took some effort and this effort is the combination of past experience on such a technique.

Some other exemples may be seen at this link:

https://www.dariogiannobile.com/starflowers

Clear Skies
D
[/quote]
Thanks; I think maybe you found something new! :D

It took some effort and this effort is the combination of past experience on such a technique.

Some other exemples may be seen at this link:

https://www.dariogiannobile.com/starflowers

Clear Skies
D

[attachment=0]TwilightFlower1024.jpg[/attachment]
Kudos Dario; It must kave taken a lot of patients to create this
photo! 8-)

[quote=VictorBorun post_id=330803 time=1683368315 user_id=145500]
the skyline was not city

[hide]Twilight in a Flower..jpgTwilight in a Flower-.jpg[/hide]
[imghover=https://asterisk.apod.com/download/file.php?id=47378&mode=view]https://asterisk.apod.com/download/file.php?id=47379&mode=view[/imghover]
[url=https://www.dariogiannobile.com/night_sky_galleries/nightscape/e6fec4a2d]original here[/url]
Twilight in a Flower-2.jpg
[/quote]

So the photos were compressed horizontally in order to fit 12 into 360 degrees. An interesting detail that I didn't quite realize - thanks.

the skyline was not city

[hide][attachment=1]Twilight in a Flower..jpg[/attachment][attachment=2]Twilight in a Flower-.jpg[/attachment][/hide]
[imghover=https://asterisk.apod.com/download/file.php?id=47378&mode=view]https://asterisk.apod.com/download/file.php?id=47379&mode=view[/imghover]
[url=https://www.dariogiannobile.com/night_sky_galleries/nightscape/e6fec4a2d]original here[/url]
[attachment=0]Twilight in a Flower-2.jpg[/attachment]

This APOD shows that blue is in fact no primary hue; it is a range from cyan to violet.
Naturally if you take a blue pigment or, as in this picture, a selecting scattering mechanism that favours blue, and then dilute it, you get pale cyan and eventually white; when you thicken a blue pigment, you get dark violet and eventually black.

There can be exclusions to this rule, when your pigment has a narrow-band spectral feature not resolved by trichromatic observers.
One example is water which is a pigment of cyan-green (=aqua), but has an unresolvable narrow band of high transparency in blue range. When you thicken clear water from 2 meters to 200 meters it goes from cyan-green to dark blue, trespassing from one secondary hue range to another.

[url=https://apod.nasa.gov/apod/ap230506.html] [img]https://apod.nasa.gov/apod/calendar/S_230506.jpg[/img] [size=150]Twilight in a Flower[/size][/url]

[b] Explanation: [/b] [url=https://apod.nasa.gov/apod/ap220422.html]Transformed[/url] into the petals of a flower, 16 exposures show the passage of day into night in this [url=https://www.dariogiannobile.com/p605599922/h6a198f02#h6a198f02]creative timelapse skyscape[/url]. Start at the top and move counterclockwise to follow consecutive moments as the twilight sky turns an ever darker blue and night blossoms. Each exposure was recorded on the [url=https://www.dariogiannobile.com/night_sky_galleries/nightscape/h6fec4a2d#h6fec4a2d]evening of April 22[/url], calculated to maintain a consistent balance of light and color. Close to the western horizon on that date, a crescent Moon and Venus are the two brightest [url=https://solarsystem.nasa.gov/skywatching/whats-up/]celestial beacons[/url]. Petal to petal the pair spiral closer to the flower's center. In silhouette around the center of the twilight flower are Sicily's megalithic rocks of [url=https://en.wikipedia.org/wiki/Argimusco]Argimusco[/url].


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