Right. High-volume users can skip the thermal batteries with decades-long shelf life, and just spot-weld a few AAA batteries inside the weapon. Just stencil the thing "Best if used by DATE". Good for a year or two at least. Skip the anti-corrosion stuff and ship it in consumer-grade shrink wrap. Ukraine ships drones to the field in lightweight cardboard boxes, not rugged weapons containers.

Many US weapons are really old designs. The Patriot went into production in 1980. The Stinger went into service in 1981. There's been progress since then. Consumer-grade parts can do most of what's needed.

Ukraine can afford the cardboard boxes because they are fighting in their own country. The US has an ocean to cross.

Ukraine can get away with short shelf life because they are at war right now. The US has to stockpile because the supply chain has to run at some capacity in peace time to be able to ramp up quickly when needed, and discarding the produced ammunition after a year would be incredibly wasteful.

Neither Ukraine nor Russia can defeat each others' air defence networks. The US has a lot of experience doing just that, while successfully defending against ballistic missiles. High tier capabilities matter.

The Patriot in 1980 is a very different system from the Patriot that is fielded today. Between PAC-2 and PAC-3, AN/MPQ-65A and LTAMDS it's a cutting edge air defence system. The progress is constantly incorporated.

The Stinger is a bit old, but mostly because the US doctrine has few uses for it. Regardless, NGSRI is coming.

Triple As might not, but back in the day plenty of rc planes flew just fine for an hour or three using 4 AA batteries to run the receiver and servos..

But this is exactly the point: This approach allows for insurgents or parties subject to overwhelming but expensive force to strain the logistics and budgets of their opponent. This is something that would be far more costly for the US to counter.

Also, because it costs a lot and there are only two benefits of ballistic over cruise (if you exclude delivering nuclear payloads, which Ukraine doesn't have): it's very fast and hard to intercept. Both are needed sometimes, but often not a requirement.

Ukraine is comparatively small, so air defenses can be packed close, Russia is big and harder to cover with air defense systems, so drones and cruise missiles are a better investment for Ukraine, since they can overpower the AD locally and are much-much easier and cheaper to produce, meanwhile ballistic is a better investment for Russia, since anti-ballistic systems are even harder to build and cost a lot.

The point is that if you're in a asymmetric position where you can't do much damage directly, then whatever you can do to make the other side waste expensive resources while putting them on constant alert is a win.

You don't need a warhead, or a viable rocket, to do that. You need something that looks enough like a viable rocket to force a response, because the other side knows that x% are real.

If that thing is cheap enough for you to fire large numbers of them, you multiply the problem for your opponent. Cheap enough, and you have the potential to overwhelm the capacity of their countermeasures entirely, at which point you increase the chance that some of their real rockets will make it through.

Instead of repeating myself, I'll just link a reply, if you don't mind: https://news.ycombinator.com/item?id=47389309

At no point did I mention "a hundred kilometres away"

I used to think the US dollars were well spent, because we felt it was morally important to deliver precision strikes which had higher cost requirements. Recent evidence demonstrates that is insufficient when the wetware making the targeting decisions is faulty.