Butterscotch clouds

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dajo42:

like, people make fun of other people for having complex starbucks orders but what the fuck is the problem with it? it’s not like you have to have what they’re ordering, it’s their fucking drink, not yours. you can just sit there with your bitter filter coffee and i’ll be over here with my white mocha with hazelnut living the whipped cream fucking dream you catastrophic pavement slab

(Source: worseblood, via worseblood)

vagiants:

Me: *before I take my first bite*

Mom: is it good?

(Source: keyote, via worthyourweightinfanfiction)

(Source: lovelyladyls)

alabina-life:

Vintage

the world according to dan smith, 2012

(Source: ihatebastille)

neptunain:

murder house wasn’t my fave but american horror story will never pull off a better plot twist than violet being dead for four episodes

(via spookyvandrwaal)

neuroticdream:

Yes….. on We Heart It.

mindblowingscience:

Groundbreaking Microscope Achievements Win Nobel Prize in Chemistry

This year’s Nobel Prize in Chemistry has been awarded to three scientists for developing a microscopy method that could reach the nanodimension and reveal the inner workings of living cells at work, the Royal Swedish Academy of Sciences announced today (Oct. 8).

The work of the Nobel Laureates, Eric Betzig, Stefan W. Hell and William E. Moerner, was “groundbreaking,” according to the Swedish Academy, as it surpassed what was thought to be a physical limit in optical microscopy. In 1873, microscopist Ernst Abbe said light microscopes could never visualize with any resolution anything smaller than 0.2 micrometers, or half the wavelength of light. For comparison, an E. colibacterial cell is about 3 micrometers long, while the influenza virus is 0.13 micrometers (130 nanometers), and the hemoglobin inside red blood cells is just 0.006 micrometers (6.5 nm) in size, according to the University of Utah’s Genetic Science Learning Center.

Because of the trio’s achievements, scientists can now use light microscopy that relies on fluorescent molecules to peer into the nanoworld, or objects (and living things) that are on the order of just billionths of a meter in size. [Bioscapes: See Award-Winning Microscope Images]

In 2000, Hell developed what is called stimulated emission depletion (STED) microscopy, in which one laser beam makes fluorescent molecules glow and another “cancels out all fluorescence except for that in a nanometer-sized volume,” according to a statement by the Swedish Academy. The result is a resolution greater than that put forth by Abbe’s calculation.

Working separately, Betzig and Moerner came up with single-molecule microscopy, which images the same area of a sample several times, letting just a few molecules glow each time. By superimposing these images, the method can produce a super-image with nanolevel resolution. Betzig used the method for the first time in 2006.

Asked today how he felt when he received the call from Staffan Normark, permanent secretary of the Royal Swedish Academy of Sciences, about his award, Hell said, “I was totally surprised. I couldn’t believe it.” Hell added that he then recognized the voice of Normark and so knew the call was real.

Betzig is now at the Janelia Farm Research Campus, Howard Hughes Medical Institute in Ashburn, Virginia; Hell is at the Max Planck Institute for Biophysical Chemistry, Göttingen, and German Cancer Research Center, Heidelberg; and Moerner is at Stanford University.

The three scientists will split this year’s Nobel Prize amount of 8 Swedish Krona or $1.1 million.

So far this week, the Academy has awarded the Nobel Prize in Medicine for the discovery of the brain’s “inner GPS,” the Nobel Prize in Physics for the invention of blue LEDs, and now the Nobel Prize in Chemistry. The Academy will announce the Nobel Prize in Literature tomorrow (Oct. 9) at 7 a.m. EDT (1 p.m. local time in Sweden) at the earliest, the Nobel Peace Prize on Friday (Oct. 10) at 5:00 a.m. EDT (11 a.m. local time in Sweden) at the earliest, and the Sveriges Riksbank Prize in Economic Sciences on Monday (Oct. 13) at 7:00 a.m. EDT (1 p.m. local time in Sweden) at the earliest. You can watch a live webcast on Live Science of the announcements.

Breaking The Supposed Limit In Seeing The Microscopic World Earns Three Chemistry Nobel

txchnologist:

by Michael Keller

Three researchers were awarded the 2014 Nobel Prize in Chemistry today for breaking through what was thought to be an absolute optical limit in seeing microscopic objects like viruses and molecules.

The Nobel committee responsible for deciding the winners chose to honor the separate work of two Americans, Eric Betzig and William Moerner, and German Stefan Hell. These scientists pioneered what is called super-resolved fluorescence microscopy, which has opened up a whole new frontier for understanding how life works at the nanoscale. (Txchnologist has previously featured more of Betzig’s groundbreaking work here.)

"I was sitting in my office when the call from Stockholm reached me,” said Hell, who is the director of the Max Planck Institute for Biophysical Chemistry. “I am enormously gratified that my work and that of my colleagues has received the highest distinction for scientific research.”  

Their innovations, using light to excite molecules that have been tagged with fluorescent markers, are now being used around the world. They are letting researchers use visible light to glimpse separate objects that are closer together than what was thought to be the limit of 0.2 microns.  This minimum is called the Abbe diffraction limit, which is half the length of the wavelength of the light used to see something through a microscope.

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fuckyeahhotdwarves:

"Exclusive" First Look at the Dwarves [x]

(via ladybons)

vento-gelido:

amore

jimllpaintit:

Smeagol crying at an H Samuel jewellers window that has ‘hundreds of rings at great prices’ - as requested by Leilah Skelton

This was the winning request from the Books Are My Bag competition. Big thanks to everyone who got involved.

(via ladybons)