@[email protected]M to Science [email protected]English • 4 months agoDrink it, I dare yamander.xyzimagemessage-square56fedilinkarrow-up1459arrow-down15
arrow-up1454arrow-down1imageDrink it, I dare yamander.xyz@[email protected]M to Science [email protected]English • 4 months agomessage-square56fedilink
minus-square@consumptiononelinkEnglish100•edit-24 months agoFrom the third sentence in the wiki page: It is, however, so extremely reactive that it is not encountered in everyday life. So yeah, not at all stable.
minus-square@[email protected]linkfedilinkEnglish24•4 months agoWell, it seems Wikipedia was wrong at least about the second half of that sentence
minus-squareJolteonlinkfedilinkEnglish6•4 months agoTo be fair, most people won’t buy this specific drink.
minus-square@PodunklinkEnglish4•4 months agoI was about to say, you got way too many things that absolutely will bond with that with no hesitation. Thats a very unstable molecule.
minus-square@[email protected]linkfedilinkEnglish2•4 months agoI would thing the plastic lining in that container would probably be high on the bonding list, but I haven’t taken a chemistry class in 24 years.
minus-square@[email protected]linkfedilinkEnglish2•4 months agoBut wait, from further down: It is stable enough to observe reactions with NO and NO2 We now have a lower and upper bound for its reactivity at least: able to observe reactions with NO and NO2 ≤ Reactivity < encountered in everyday life
From the third sentence in the wiki page:
So yeah, not at all stable.
Well, it seems Wikipedia was wrong at least about the second half of that sentence
To be fair, most people won’t buy this specific drink.
I was about to say, you got way too many things that absolutely will bond with that with no hesitation. Thats a very unstable molecule.
I would thing the plastic lining in that container would probably be high on the bonding list, but I haven’t taken a chemistry class in 24 years.
But wait, from further down:
We now have a lower and upper bound for its reactivity at least:
able to observe reactions with NO and NO2 ≤ Reactivity < encountered in everyday life