Henrow blorbo

first off, ohmyfuckinggodyouaresocoolllllllllllllllll

secondly, what ya workin' on currently? <- is deathly interested, yes please please please info dump if you have the spoons

- Ryan

Bonjour my furry friend. At the moment i'm mostly working on getting a job so that i can afford rent, but when i'm not doing that, i'm working on designing some new N-substituted 5MeO-tryptamines (in order to avoid being banned for breaking tumblr TOS, i can't say exactly what for, but if you look up 5MeO-tryptamines, you should see). So far i've only managed to make things that make me super sleepy (and maybe a tiny bit inebriated), so presumably my body is mainly metabolizing them into melatonin. I also have been working on working through the details of making a rocket engine which relies on both muon catalyzed fusion and z-pinch fusion (mostly because even though i know it's way above what i'm probably capable of, i just love space so much i desperately need to see it for myself and i figure that since rockets are so absurdly expensive, the only way i'll end up in space is if we can get a whole new generation of ultra-efficient rockets (for example, given p-N14 fusion, if we manage to get 1% or more (i don't really expect more than 0.1% max, but still) of the hydrogen fusing with nitrogen, we'd be able to put 150 tons on the moon from earth with only using about enough fuel to fill a small car (instead of needing a skyscraper sized rocket to send maybe 30 tons)). Now, if it were as easy as my calculations show it to be, i can't imagine how there are any rockets flown that aren't fusion, but seeing as i haven't even made a working proof of concept yet, i'm not in a position to criticize the thousands of aerospace engineers who are working on conventional chemical rockets. I love fusion because it's simultaneously so easy (i live pretty close to an old uranium mine where i can actually pan some uranium out of the creek near me, then use that uranium to make a neutron source (B10(α,n)) which is really just fusion between helium and boron, happening at room temperature because of how high energy the α particles released by uranium are) and so absurdly difficult (without catalysts like muons, it requires absurdly high temperatures and pressures that almost always take more energy put in than they can give out). Anyway, i've also been sorta working on studying a material that a while back i got way too excited over and may have called a room temperature superconductor (almost certainly not the case), but in an attempt to make it more pure and study it for real i've been trying to work on the exact calculations of its composition and finding a better way to heat it up to high temperatures (i might just put it in a flat-bottomed flask, especially since it finally warmed up enough for me to go back outside where the fumes released by its production won't make folks mad).

And then there's the biological experiments, currently with electroceutical tissue modifications since most of the other projects i have planned require me to have a gene printer capable of reliably printing genes thousands of base pairs long and i'm not sure when i'll be able to build that. The most recent thing i've been working on is really exciting because if it works it means that i've successfully done something that has never been done before to a human body (and given the long lasting pain in that part of my thigh, it seems very possible it is working), but i'm hesitant about sharing what the project is because i don't really want folks putting gap junction blockers, calcium channel blockers, and sodium channel blockers into open wounds without knowing how to do it safely and correctly to get the desired results and not just a really messed up wound. If/when this experiment turns out well, i might give directions in private, but i'm still somewhat hesitant due to the risks inherent in this (the biggest and most likely is literally giving yourself a form of cancer, something i'm not eager for others to risk). Soon i might try chemical dedifferentiation of skin cells (thinking on my back or upper arms) followed by some mildly dangerous experiments to test how reliably i can make it turn into other cell types. And while i haven't made good work on it in a while, i've also been trying to make something similar to shimmer from arcane (ideally not addictive or harmful to the user, but most importantly the quick energy burst, decreased pain, and increased regenerative abilities (obviously it won't be anywhere near as dramatic as in the show, so calling it shimmer may not really make sense, but it is where i got the inspiration)).

Then i suppose there's the battery project i was talking about in my last post, and i'm also trying to learn how to make alcohol under my desk (i mean, it's super easy, it just doesn't taste great). There might be a few more things i'm working on but rn i'm super eepy and have talked about a lot already. If this seems like i'm doing a lot or impressive, also note that i'm actively failing out of college (for my own pride: the material is super easy and mostly i already know it, i just can't stand wasting so much of my time doing homework that doesn't help anyone or anything) and not yet working a job, so i have a lot of time and so much free brainspace to think about and do all this. I also work very slowly on each thing because i keep bouncing back and forth between all of them and almost always end up adding new projects before i've finished the old ones and so i almost never see a project all the way through to completion (at least some of the bio projects are just sitting in my body and i am just waiting to see how they turn out in the next 2-3 months, so those necessarily will see completion, even if it's failure). I really hope i see the fusion rocket to completion because if i don't think i'll ever be able to see the earth from afar or the moon from up close.