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VLT image of the cometary globule CG4

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December 17, 1965 – Stunning images of Earth captured by the astronauts of Gemini 7 as their craft raced around the planet.

(NASA/ASU)

Please subscribe, like, comment, and donate! This was the last episode of this season. Keep an eye out on the facebook page for more information on Season 2. Please comment below for any experiments or simple science you'd like us to explain while drunk! Starring: Candice Lola Directed by Rebecca Berger Produced by Rebecca Berger and Candice Lola Written by Candice Lola Editing, Color, Sound Design by Rebecca Berger Animation by Rachael K McDonald Links: Music: http://ift.tt/1JICaNj and http://ift.tt/2lquxdO http://ift.tt/2lINlQJ http://ift.tt/2lqtjzr http://ift.tt/2lIL08B http://ift.tt/2lqvuCQ (Donations are always welcome!) http://ift.tt/2lITyw7 http://ift.tt/2lqvQJO

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From Pluto, with love!

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"Don't mind if I do". Our drunk scientist sneaking a sip! Full episode tomorrow at 10:30, subscribe and never miss it! #blerd #hilarious #video #gif #funny #stem #science #experiment http://ift.tt/2oj56LT

Drunk Science is HERE!!! Our first episode explains the mystery of slime. It also makes drunken attempts at humor and references super heroes. It's literally everything you could ever need. Click link in bio to watch! #drunkscience #stem #blerd #funny #science #drunk #labcoat #youtube #experiment http://ift.tt/2mQUVL1

If you dropped a water balloon on a bed of nails, you’d expect it to burst spectacularly. And you’d be right – some of the time. Under the right conditions, though, you’d see what a high-speed camera caught in the animation above: a pancake-shaped bounce with nary a leak. Physically, this is a scaled-up version of what happens to a water droplet when it hits a superhydrophobic surface. 

Water repellent superhydrophobic surfaces are covered in microscale roughness, much like a bed of tiny nails. When the balloon (or droplet) hits, it deforms into the gaps between posts. In the case of the water balloon, its rubbery exterior pulls back against that deformation. (For the droplet, the same effect is provided by surface tension.) That tension pulls the deformed parts of the balloon back up, causing the whole balloon to rebound off the nails in a pancake-like shape. For more, check out this video on the student balloon project or the original water droplet research. (Image credits: T. Hecksher et al., Y. Liu et al.; via The New York Times; submitted by Justin B.)