Starship Asterisk*

MargaritaMc wrote:

alter-ego wrote:

Ann wrote:Today's APOD is very fascinating, but I'm frustrated because I can't identiy the background stars. Can anyone help me?
Ann

The bright star on the right is Altair and on the left is Cassiopeia's gamma Cas, Caph, and Shedir. The moon is just rising under Altair (behind the mountain) so it is not a reasonable light source for the cloud. The suspect light source I think are the ground lights below. The cloud could be farther away from the mountain and the town (Government Camp), so the illumination could be more from the side of the cloud than directly under it. Also the lights on the mountain, behind the ridge, could easily be bright enough especially if you consider the likely skyward reflected component off the snow (the ski areas are on the other side of that ridge).

Correction: I was too early with date/time. The moon rises later, possibly after the sunrise.

Have you any thoughts about the stars on the far right of the photo? Just above and slightly to the left of the tent. When I first read what you had posted, alter-ego, I thought that you meant that one of these was Altair. Then you mentioned that Altair was directly above the mountain. So I thought I'd ask!
Margarita

neufer wrote:

http://earthobservatory.nasa.gov/IOTD/view.php?id=39786 wrote:

[b][color=#0000FF]Mount Hood photograph by the ISS Expedition 20 crew on August 5, 2009.[/color][/b]

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<<Mount Hood is located within the Cascade Range of the western United States, and it is the highest peak in Oregon (3,426 meters). The Cascade Range is characterized by a line of volcanoes associated with a slab of oceanic crust that is subducting, or descending underneath, the westward-moving, continental crust of North America. Magma generated by the subduction process rises upward through the crust and feeds a line of active volcanoes that extends from northern California in the United States to southern British Columbia in Canada.

While hot springs and steam vents are still active on Mount Hood, the last eruption from the volcano occurred in 1866. The volcano is considered dormant, but still actively monitored. Separate phases of eruptive activity produced pyroclastic flows and lahars that carried erupted materials down all of the major rivers draining the volcano. Gray volcanic deposits extend southwards along the banks of the White River (image lower left) and form several prominent ridges along the southeast to southwest flanks of the volcano. The deposits contrast sharply with the green vegetation on the lower flanks of the volcano.

The Mount Hood stratovolcano—a typically cone-shaped structure formed by layered lava flows and explosive eruption deposits—hosts twelve mapped glaciers along its upper flanks. Like other glaciers in the Pacific Northwest, the Hood glaciers have been receding due to global warming, and they have lost an estimated 61 percent of their volume over the past century. The predicted loss of glacial meltwater under future warming scenarios will have significant effects on regional hydrology and water supplies.>>

http://earthobservatory.nasa.gov/IOTD/view.php?id=39786 wrote:

[b][color=#0000FF]Mount Hood photograph by the ISS Expedition 20 crew on August 5, 2009.[/color][/b]

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<<Mount Hood is located within the Cascade Range of the western United States, and it is the highest peak in Oregon (3,426 meters). The Cascade Range is characterized by a line of volcanoes associated with a slab of oceanic crust that is subducting, or descending underneath, the westward-moving, continental crust of North America. Magma generated by the subduction process rises upward through the crust and feeds a line of active volcanoes that extends from northern California in the United States to southern British Columbia in Canada.

While hot springs and steam vents are still active on Mount Hood, the last eruption from the volcano occurred in 1866. The volcano is considered dormant, but still actively monitored. Separate phases of eruptive activity produced pyroclastic flows and lahars that carried erupted materials down all of the major rivers draining the volcano. Gray volcanic deposits extend southwards along the banks of the White River (image lower left) and form several prominent ridges along the southeast to southwest flanks of the volcano. The deposits contrast sharply with the green vegetation on the lower flanks of the volcano.

The Mount Hood stratovolcano—a typically cone-shaped structure formed by layered lava flows and explosive eruption deposits—hosts twelve mapped glaciers along its upper flanks. Like other glaciers in the Pacific Northwest, the Hood glaciers have been receding due to global warming, and they have lost an estimated 61 percent of their volume over the past century. The predicted loss of glacial meltwater under future warming scenarios will have significant effects on regional hydrology and water supplies.>>

stowaway wrote:

alter-ego wrote:

geckzilla wrote:
Clouds and the effects of light reflecting off and passing through them sometimes still baffle me. Today's picture is one of those times. How is it illuminated? Moonlight, I presume. Still, it seems odd.

The suspect light source I think are the ground lights below. The cloud could be farther away from the mountain and the town (Government Camp), so the illumination could be more from the side of the cloud than directly under it. Also the lights on the mountain, behind the ridge, could easily be bright enough especially if you consider the likely skyward reflected component off the snow (the ski areas are on the other side of that ridge).

Oh come on! Anybody can tell that's really a flying saucer.

http://en.wikipedia.org/wiki/Timberline_Lodge_ski_area wrote:

[b][color=#0000FF]Extraterrestrials preparing to return to the mother ship[/color][/b]

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<<Timberline Lodge ski area is one of a few ski areas in the United States with most of the skiable terrain below the main lodge. It is located on the south face of Mount Hood, about 60 miles east of Portland. The lodge was constructed between 1936 and 1938 as a Works Progress Administration project during the Great Depression. That year, Timberline opened as Oregon's first destination ski resort with a portable rope tow. The next year, the Magic Mile chairlift opened, as well as Silcox Hut, which sits about one thousand vertical feet and a mile above the main lodge, and was the original unloading and warming hut.

Summer skiing and summer race camps began at Timberline in 1956. Before the Palmer chairlift was constructed in 1983 (which provides access above the 7,000-foot level), the conditions at Timberline allowed skiing from the Mile November through July or August. With the Palmer, a skiable surface is available year round. Timberline is the only ski area in the states with lift accessed skiing and snowboarding all twelve months of the year. Ski and snowboard camps draw thousands of people to the slopes during the months of June, July and August.>>

http://en.wikipedia.org/wiki/Mount_Hood_Skibowl wrote:
<<Mount Hood Skibowl is a recreation area on Mount Hood located near Government Camp, Oregon. It is the largest night ski area in the United States, and the total skiable area encompasses an area of 960 acres (388 ha) (about two thirds of this is lit). The resort is the closest ski venue to Portland, with an elevation of 3,600 feet at the lodge, rising to just over 5,000 feet at the summit. The average snowfall at the area is 300 inches, with an average consolidated base around 100 inches and 65 marked trails.>>

alter-ego wrote:

Ann wrote:Today's APOD is very fascinating, but I'm frustrated because I can't identiy the background stars. Can anyone help me?
Ann

The bright star on the right is Altair and on the left is Cassiopeia's gamma Cas, Caph, and Shedir. The moon is just rising under Altair (behind the mountain) so it is not a reasonable light source for the cloud. The suspect light source I think are the ground lights below. The cloud could be farther away from the mountain and the town (Government Camp), so the illumination could be more from the side of the cloud than directly under it. Also the lights on the mountain, behind the ridge, could easily be bright enough especially if you consider the likely skyward reflected component off the snow (the ski areas are on the other side of that ridge).

Correction: I was too early with date/time. The moon rises later, possibly after the sunrise.

geckzilla wrote:Clouds and the effects of light reflecting off and passing through them sometimes still baffle me. Today's picture is one of those times. How is it illuminated? Moonlight, I presume. Still, it seems odd.

Ann wrote:Today's APOD is very fascinating, but I'm frustrated because I can't identiy the background stars. Can anyone help me?
Ann