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I swear you people have no sense of humor. Thanx sundance.
Mars Sand Dunes.http://www.nasa.gov/mission_pages/MRO/multimedia/pia15283.html
Quote from: chunkles on February 11, 2012, 01:03:38 PMMars Sand Dunes.http://www.nasa.gov/mission_pages/MRO/multimedia/pia15283.htmlHow cool. Completely unaltered by humanity.
QuoteWhen the temperature, humidity and winds are just right, we'll get this fog that forms on the high rise condos on the beach. This was taken just minutes ago. (2/5/12@12:40)
When the temperature, humidity and winds are just right, we'll get this fog that forms on the high rise condos on the beach. This was taken just minutes ago. (2/5/12@12:40)
People watch the Triberger waterfalls at the Black Forest in Triberg, southern Germany during temperatures far below zero, on Feb. 7, 2012.
THAT'S OUR BLOODFART!!! Now do we need a bloodfart/hellhammer cool sciencey related pictures thread?
This marvel of celestial configuration happens in a flash at sunset in mid-February — if the winter weather cooperates. On those days the setting sun illuminates one of the park's lesser-known waterfalls so precisely that it resembles molten lava as it flows over the sheer granite face of the imposing El Capitan.
Not sure if this qualifies as sciencey, but it is cool.
Researchers at Ohio State University and Kansas State University have captured the first-ever images of atoms moving in a molecule. Shown here is molecular nitrogen. The researchers used an ultrafast laser to knock one electron from the molecule, and recorded the diffraction pattern that was created when the electron scattered off the molecule. The image highlights any changes the molecule went through during the time between laser pulses: one quadrillionth of a second. The constituent atoms' movement is shown as a measure of increasing angular momentum, on a scale from dark blue to pink, with pink showing the region of greatest momentum.
http://www.eurekalert.org/pub_releases/2012-03/osu-rcf030612.phpQuoteResearchers at Ohio State University and Kansas State University have captured the first-ever images of atoms moving in a molecule. Shown here is molecular nitrogen. The researchers used an ultrafast laser to knock one electron from the molecule, and recorded the diffraction pattern that was created when the electron scattered off the molecule. The image highlights any changes the molecule went through during the time between laser pulses: one quadrillionth of a second. The constituent atoms' movement is shown as a measure of increasing angular momentum, on a scale from dark blue to pink, with pink showing the region of greatest momentum.
KU is right on par with Notre Dame ... when it comes to adding additional conference revenue
Beer pro tip: never drink anything other than BL, coors, pbr, maybe a few others that I'm forgetting