This is the lock picking lawyer and today we have a padlock on an airlock. Now, this is extremely difficult due to its location, but the lock itself is nothing more than a master lock that you can just bang on the side here, and it’s open. To show that it wasn’t a fluke…
It is said that eons ago, a wise and benevolent squid elder named Ozymandias possessed the power to manipulate the very essence of chalk.
When the squid community faced a perilous migration across treacherous terrains, Ozymandias would emerge from the depths and lay down chalk roads, imbued with his magical ink, to guide his fellow squids safely to their destination. These chalk roads glowed with an ethereal blue light, illuminating the darkest depths of the ocean.
As time passed, the squids would harness the power of Ozymandias’ magical ink to transform themselves temporarily into living chalk roads. By intertwining their arms and tentacles, they would create a network of living paths on the ocean floor, allowing other marine creatures to traverse great distances with ease.
It is said that if the squids are in great danger, the squid king can awaken the giant squid in the living chalk paths. This apocalyptic event is known as the bubbling.
This is waaaaay to simple of a depiction of modern roads. Modern infrastructure is super complex, with roads going down meters with many different layers and components.
I would recommend the Practical Engineering YouTube channel to get some insight in how complex our modern infrastructure actually is. Things that seem so simple on the surface are often really complex.
Also: roads aren’t designed for cars, they are designed for super heavy big vehicles carrying tons of materials. If the road can handle those, the cars don’t really matter all that much.
Practical Engineering is a great channel for anyone even slightly curious about civil engineering! Grady does a great job at making infrastructure perfectly accessible
Image from 2022 using infrared imaging with the goal of spotting clouds on Titan. The white spot that looks like a bubble reflection on the upper right of the image (1 o’clock?) is a cloud.
This is not true color, but colors assigned to different the wavelengths that we otherwise cannot see. Visible light would not have allowed imaging deep enough into the atmosphere to see clouds.
Titan is the only object other than Earth where liquid hydrocarbon lakes and seas have actually been found (by Cassini) in its polar regions – in abundance in the north polar region and at least one of approximately 20,000 km2, called Ontario Lacus, on its south pole. Just recently, there have also been long-standing methane lakes, or puddles, in Titan’s “tropics” discovered.
This makes me wonder what would happen if someone ignited large explosives by some of these hydrocarbon pools… since there’s plenty of water ice, there’s oxygen tied up to react with…
Titan is small, and distant, when compared to the photo in the thread.
The photo in this thread is by Cassini, which was at least a thousand of times closer. Titan is 1.2 million KM from Saturn, which Cassini was orbiting, while Earth, which JWST “orbits” is at least 1.2 billion KM from Saturn.
With its liquids (both surface and subsurface) and robust nitrogen atmosphere, Titan’s methane cycle bears a striking similarity to Earth’s water cycle, albeit at the much lower temperature of about 94 K (−179 °C; −290 °F).
Yeah, if you ignore the ratios, “NaCHO” represents every sodium salt of an organic compound containing only carbon, hydrogen, and oxygen. There are many of these compounds:
interestingasfuck
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