trying on a metaphor
2025 on Tumblr: Trends That Defined the Year
styofa doing anything

blake kathryn
Jules of Nature
No title available
$LAYYYTER

ellievsbear
Monterey Bay Aquarium
occasionally subtle
Cosmic Funnies
art blog(derogatory)

Andulka
let's talk about Bridgerton tea, my ask is open
Peter Solarz
DEAR READER
RMH
sheepfilms
Lint Roller? I Barely Know Her
will byers stan first human second

seen from United States

seen from Kyrgyzstan

seen from United States

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seen from United Kingdom
seen from Bangladesh
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seen from Uzbekistan
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@cascadeoflight
Beasts of the Shallows
Created by Cosimo Galluzzi || Tumblr
"our comrade in the struggle against the atopic regime of militarized capitalist surveillance" -nerdosyndical
Museums of Unnatural History by Brandon Hall
Princess Mononoke (1997)
Whooping Crane Destroying the Keystone XL Tar Sands Pipeline.
Inspiration: "Spirit Bear Destroying the Tar Sands." Two similar mash ups.
This a Fair Use collage of photos by the spectacular wildlife photagrapher Mike Sloat and game changing activists of the Tar Sands Blockade.
The hummingbird has long been admired for its ability to hover in flight. The key to this behavior is the bird’s capability to produce lift on both its downstroke and its upstroke. The animation above shows a simulation of hovering hummingbird. The kinematics of the bird’s flapping—the figure-8 motion and the twist of the wings through each cycle—are based on high-speed video of actual hummingbirds. These data were then used to construct a digital model of a hummingbird, about which scientists simulated airflow. About 70% of the lift each cycle is generated by the downstroke, much of it coming from the leading-edge vortex that develops on the wing. The remainder of the lift is creating during the upstroke as the bird pulls its wings back. During this part of the cycle, the flexible hummingbird twists its wings to a very high angle of attack, which is necessary to generate and maintain a leading-edge vortex on the upstroke. The full-scale animation is here. (Image credit: J. Song et al.; via Wired; submitted by averagegrdy)