Planes were used in the world wars, then we have 9/11. This is the post 9/11 era where air travel sucks so much.
Similarly:
Drones are now being used in the Russo-Ukrainian war. Eventually, there will be a “9/11” with multiple coordinated drone attacks and then the way drones are treated will be forever changed. Civillian ownership of drones will likely be heavily restricted or entirely banned.
History rhymes.
That strongly depends on where you live, how much you need, and how good of a home chemist your are. Enough to take down a large building? Hard in most places. Enough to kill a bunch of people in a crowd? Quite easy.
It’s a case by case thing of course but incendiaries are also an option sometimes and these are laughably easy to make. Strategically placed near fire exits the results could be devastating.
Fireworks sales are legal in Ohio. Setting them off is illegal.
However buying them and harvesting the gun powder seems pretty easy.
Far easier ways to make/acquire gun powder, and far better explosives available. Fireworks make a lot of noise and light, but they aren’t particularly strong explosives.
But the ensuing video will be so pretty!
nitric acid and cellulose or most organics. I’m sure there is a relatively simple way to get from liquid nitrogen to nitrogen compounds. Air is mostly nitrogen. Two air conditioner compressors can work in series to with the second running ethylene glycol IIRC to get low enough to liquefy air for nitrogen. It probably only takes something like hydrochloric acid and a few steps to get somewhere useful. Probably written in a high school chemistry textbook.
These days we do have the means to do it, though I don’t know how achievable they are to the home-gamer
But historically this was actually a huge chemistry problem
I’m not a chemist, so I gotta gloss over some stuff I don’t fully understand
But nitrogen tends to form bonds with itself and makes an N2 molecule. That’s what the nitrogen in the air is, that’s what liquid nitrogen is.
And unfortunately for us (for chemistry purposes) that molecule is very stable, it doesn’t like to react with much, for most practical purposes it can basically be considered inert.
However, nitrogen is of course part of a whole lot of other chemicals as well, very important chemicals that plants and animals need. You probably heard about the nitrogen cycle in middle or high school science class at one point, and how nitrogen-fixing bacteria in the soil can convert atmospheric nitrogen into stuff that plants can use, and then animals eat the plants, and their waste also contains nitrogen compounds that can feed plants, etc.
But for us to do that through chemical processes isn’t easy. We can’t just pour some liquid nitrogen into a beaker and mix in some other stuff and it reacts to make ammonia or whatever other nitrogen compound you desire.
Until around 100 years ago, we basically couldn’t turn atmospheric nitrogen into anything else, at least not at any kind of scale and not in any commercially viable way. Which was a huge problem as the world’s population was growing and growing enough food to feed everyone was hard without being able to make synthetic fertilizers. The US actually has a law saying that they’re allowed to just claim uninhabited islands that are covered in bird shit because that guano was rich in ammonia and other nitrogen compounds and so immensely valuable as a fertilizer.
Then along comes Fritz Haber, who comes up with the Haber process to turn atmospheric nitrogen into ammonia. This was a huge deal and he won a Nobel Prize in chemistry for it. I don’t think it’s a stretch to say that if you’ve eaten pretty much anything grown on a farm you owe it to the Haber process.
And it’s still a huge deal to this day, the haber process is responsible for around 2% of the world’s energy consumption, and about the same amount of our greenhouse gas emissions.
If you’ve got a quick and easy way to turn pure nitrogen into something else, there’s probably another Nobel Prize waiting for you.
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Birkeland–Eyde, yes, but that’s even more inefficient than the Haber process.
Ostwald is something else though, that’s basically the next step after the Haber process to turn the ammonia into nitric acid.
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