The best outcome is we get two Moon bases. I say this as someone who remains a fairly patriotic American. But we need competition and, more darkly, we need a backup.
The Chinese will build a moon base, as a sign from the Chinese government to the Chinese people that China is capable of cutting-edge engineering and science (notably a demonstration to their own citizens - when was the last time you heard about the Chinese space stations outside China?).
America seems a bit shaky in their determination to actually build a moon base, though having Jared Isaacman as administrator gives hope. But regardless of whether America is currently on track, a successful Chinese moon base won't stay without answer
Last year, when negative news of delayed astronaut return was all over American news, e.g. [1][2]. Apparently makes American astronauts onboard Boeing ship being stuck in space less embarrassing.
[1] https://www.nytimes.com/2025/11/04/science/space/china-space...
[2] https://edition.cnn.com/2025/11/05/china/china-shenzhou-20-a...
Why are landing strips the big unlock? Blast effects? Tiny landing legs?
Also the landing strip can be designed to slowly go up hill which could help with the breaking phase as well.
Makes me wonder if you could accelerate to orbital velocity using something like a maglev train and not have to worry about rockets at all.
Rough estimates? Mass drivers make sense. I haven’t seen the numbers for just compressing and leveling regolith.
The moon is dangerous because there's no people and civilization is 5 days away at best but if there was already civilization at the moon you wouldn't think it was dangerous.
On top of that the materials on the moon are already "on the high ground" meaning you don't need to spend a lot of money on propellant to get it into orbit. So building space habitats and delivering them into an appropriate orbit on the moon is a tiny fraction of the fuel needed from Earth. To put this into perspective the Apollo Lunar Module only needed 2.2 Tons of propellant to get the upper part of it back into orbit to meet up with the service module. 2.2 tons of propellant is basically nothing with the scales we are talking about.
On top of that if we could produce the propellant on the moon the costs and logistics and difficulty of all of this drop significantly.
So in short the best possible way to lower the risk, cost, and provide functionality is to establish civilization on the moon and get to the industrial age there as quickly as possible.
We're doing it regardless of what you naysayers will say about it because it's the right thing to do for a thousand different reasons. And we're doing the robot thing too. At the same time.
One of those strides has been in characterising just how magnificent the human eye, mind and hand are at picking weird shit out of a background.