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About

Tries to minimize the drama and maximize the bacon.

Links

There used to be a method to the madness. But that ended with the June 16, 2010 post.

Why I spelled "nut" wrong.

CREDITS

I try to properly credit everything, but if I missed something, just holla.

Anything tagged my stuff is usually 100% me and preservative free.

Sometimes I write silly poems inspired by a photo I took. All I can say is, they made sense to me at the time. ;)

Thanks to Hunson for the theme, to Streampad for the audioplayer, to tumblr for the distraction I cannot afford, and to you for randomly browsing my randomness.

Following

17 January 12
Infrared Portrait of the Large Magellanic Cloud image credit: ESA / NASA / JPL-Caltech / STScI APOD: Cosmic dust clouds ripple across this infrared portrait of our Milky Way’s satellite galaxy, the Large Magellanic Cloud. In fact, the remarkable composite image from the Herschel Space Observatory and the Spitzer Space Telescope show that dust clouds fill this neighboring dwarf galaxy, much like dust along the plane of the Milky Way itself. The dust temperatures tend to trace star forming activity. Spitzer data in blue hues indicate warm dust heated by young stars. Herschel’s instruments contributed the image data shown in red and green, revealing dust emission from cooler and intermediate regions where star formation is just beginning or has stopped. Dominated by dust emission, the Large Magellanic Cloud’s infrared appearance is different from views in optical images. But this galaxy’s well-known Tarantula Nebula still stands out, easily seen here as the brightest region to the left of center. A mere 160,000 light-years distant, the Large Cloud of Magellan is about 30,000 light-years across. (via APOD: 2012 January 15 - Infrared Portrait of the Large Magellanic Cloud)

Infrared Portrait of the Large Magellanic Cloud

image credit: ESA / NASA / JPL-Caltech / STScI

APOD:

Cosmic dust clouds ripple across this infrared portrait of our Milky Way’s satellite galaxy, the Large Magellanic Cloud. In fact, the remarkable composite image from the Herschel Space Observatory and the Spitzer Space Telescope show that dust clouds fill this neighboring dwarf galaxy, much like dust along the plane of the Milky Way itself. The dust temperatures tend to trace star forming activity. Spitzer data in blue hues indicate warm dust heated by young stars. Herschel’s instruments contributed the image data shown in red and green, revealing dust emission from cooler and intermediate regions where star formation is just beginning or has stopped. Dominated by dust emission, the Large Magellanic Cloud’s infrared appearance is different from views in optical images. But this galaxy’s well-known Tarantula Nebula still stands out, easily seen here as the brightest region to the left of center. A mere 160,000 light-years distant, the Large Cloud of Magellan is about 30,000 light-years across.

(via APOD: 2012 January 15 - Infrared Portrait of the Large Magellanic Cloud)

Themed by Hunson. Originally by Josh