“G and Azriel have so much chemistry!”
And it’s literally training scenes that can easily have Feyre inserted into G’s place and literally parallel when Az was training Feyre. And only like 2 scenes at that. I truly do not understand.

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“G and Azriel have so much chemistry!”
And it’s literally training scenes that can easily have Feyre inserted into G’s place and literally parallel when Az was training Feyre. And only like 2 scenes at that. I truly do not understand.
basic? no, I'm an acidic bitch.
@science nerds Nishinoya Yū’s body isn’t solid, it’s in plasma state of matter
Reblog if you agree
Day 19: Conjured Familiar
Your chemistry set has come alive and it’s surprisingly friendly and helpful.
so apparently nyxsworn are like a hazardous byproduct of umbrasteel
How many people would it take playing "bottles of beer" for them to fail to finish within the last 20 bottles?
Note:
*Only one person drinks an individual beer
*A person must finish their beer before their next beer arrives
*Beers are passed along the group in turns
*A person cannot start their next beer until the rest of the group has had theirs
*People drink until they pass out (and then are no longer participating)
*Assumptions about the amount of beer, strength of beer, time taken to drink the beer, and alcohol tolerances can be made.
Calcium sulphur batteries (uwu)
Okay, so, i've become interested in z-pinch studies for aerospace purposes (i'm really excited about the prospects, everything works on paper, but i naturally want to actually witness p+N14 fusion for above 0.01% of available protons before i go trying to get the materials to build a real liquid fueled SSTO fusion rocket, especially since there are thousands of folks way smarter than me who have presumably thought of this before and we don't have it yet, so yeah). Anyways, if i want the extremely large electricity input without making my electricity bill higher than a whole month's rent and getting my roommates mad at me, i'll need to collect solar or wind in a battery bank. Since lithium batteries are just about all immoral and expensive (yes i am writing this on a device powered by lithium batteries, it would be lovely if capitalists would take a hint and switch to things that just objectively perform better and are cheaper, but whatever), i figured this would be a nice excuse to experiment around with some new battery designs. Since all of them will require sulphur, i won't be able to really get into it before mid may due to some concerns about the smell and risks of getting sulphur powder everywhere (it's very yellow and hard to clean out), but i felt i might as well share my preliminary ideas. First off, in order to make the organic sulphur polymer, i'm looking to explore mostly citrate based polymers, perhaps with phenylalanine mixed in in order to both give more bulk as well as providing nitrogens for sulphenamides to form. Since i'll need urea later, i was also considering partially polymerizing urea with citric acid and adding that into the molten sulphur mix, but i'm less confident in the stability of that and a bit concerned about the potential noxious fumes produced. Regardless, that's the short of the sulphur cathode, details will definitely change after i refind that paper which went over a great way of preventing insoluble polysulphide production. I'm also gonna experiment with anode material and even the ions i use. I know i said "calcium sulphur batteries" in the title, but due to how common aluminium is and how much easier magnesium is to work with (and the fact that their specific energies are higher), i'll also be considering those two. Even beyond that, there are so many potential anode materials, including even amorphous carbon and carbon nitrides which i'd love to test since there's just so much to improve on and i'd rather do a lot of experiments with cheap to make materials and potentially land on a great solution than accept something subpar because it took less effort. Anyways, of the materials i plan on using, there's magnesium sulphate, aluminium sulphate, calcium chloride, potentially other calcium salts (is the salt with taurine soluble in water? IDK, can't find an answer so i'll test it), charcoal, vegetable oil, urea, and phenylalanine. Those may seem like an unrelated hodgepodge of compounds, but they've been chosen because they're what i have/will soon have and they're also all extremely cheap. If the urea works out well in the battery, i may have to make this project a meme and attempt to make a z-pinch device with as much urine as possible (use it to make ammonia for the plasma, to make the batteries, and i'm sure there's some way to use urine in a capacitor (maybe just distilling off the water to use as a dielectric? idk, it's been a while since i tried making a capacitor)).
Anyway, i really didn't expect this long trainwreck of a post to end with discussions of urine, but what can you do? This is all probably nonsensical, even by my standards, but basically i want batteries and i think i can make them cheaper per megajoule of stored energy than the ones i could buy, even accounting for the inevitable failed experiments.