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if i look back, i am lost
almost home
I'd rather be in outer space 🛸

Andulka

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YOU ARE THE REASON

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❣ Chile in a Photography ❣
One Nice Bug Per Day
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@thelovetripper
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Via sansanpetart
(from @Oattsplease)
(from @Oattsplease)
Understanding the behavior of water at the nanoscale is critical to many new technologies. The success of medical treatments can be reliant on how water trapped in small cavities in our bodies will react.
Scientists at the University of Cambridge have discovered that water in a one-molecule layer acts like neither a liquid nor a solid, and that it becomes highly conductive at high pressures.
Much is known about how “bulk water” behaves: it expands when it freezes, and it has a high boiling point. But when water is compressed to the nanoscale, its properties change dramatically.
[…]
The researchers found that water which is confined into a one-molecule thick layer goes through several phases, including a “hexatic” phase and a “superionic” phase. In the hexatic phase, the water acts as neither a solid nor a liquid, but something in between. In the superionic phase, which occurs at higher pressures, the water becomes highly conductive, propelling protons quickly through ice in a way resembling the flow of electrons in a conductor.
Continue Reading.
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Gougar
a single fried shrimp just ran out of the restaurant sobbing
tomorrow.
is thursday yes
did you do it
Uhh. Jimin just drove a pickup truck through a crowded mall, killing 14 and injuring 31
did that thing go see-through? where is it’s blood?
Cephalopods and other invertebrates don’t have blood in the same sense that vertebrates do - they evolved their own circulatory system completely independently. The invertebrate analog to blood is called haemolymph, and it contains the copper-based protein haemocyanin for oxygen transport, rather than the iron-based haemoglobin that vertebrates possess. This means the haemolymph is a blue-green colour when oxygenated, and colourless when deoxygenated.