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404 points voxleone | 3 comments | | HN request time: 0.001s | source
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allenrb ◴[] No.45661384[source]
There is just so much wrong with this from start to finish. Here are a few things, by no means inclusive:

1. We’ve already beaten China to the moon by 56 years, 3 months, and some change. And counting.

2. Nothing based around SLS is remotely serious. The cost and timeline of doing anything with it are unreasonable. It is an absolute dead-end. The SpaceX Super Heavy has been more capable arguably as early as the second flight test and certainly now. They could have built a “dumb” second stage at any time, but aren’t that short-sighted.

3. Blue Origin? I’ve had high hopes for the guys for two decades now. Don’t hold your breath.

4. Anyone else? Really, really don’t hold your breath.

This whole “race to the moon, part II” is almost criminally stupid. Land on the moon when we can accomplish something there, not just to prove we haven’t lost our mojo since Apollo.

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vincenthwt ◴[] No.45665389[source]
Hopefully, your view is in the minority. If this mindset becomes prevalent in the US, nothing new will ever be invented, and no new regions of space will be explored.

Modern moon exploration isn’t about repeating Apollo but progressing toward resource extraction and establishing humanity’s long-term presence in space. These missions are designed to achieve goals that were previously impossible and lay the foundation for humanity’s future beyond Earth.

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halapro ◴[] No.45665459[source]
> humanity’s future beyond Earth.

Yes but why?

It's cool that we can learn about what's around us, but in practice we're light years away from being interplanetary, we just can't afford it and our energy sources are laughable.

Realistically speaking, how far are we really from "moon travel" that is both remotely affordable and worth the trip?

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vincenthwt ◴[] No.45665754[source]
"Yes, but why?" If humans had never ventured beyond perceived limits, like crossing oceans or building planes, where would we be today?

"We’re light-years away from being interplanetary; it’s too costly and our energy is laughable." If people doubted the Wright brothers or mocked the idea of landing on the Moon, should we have stopped trying?

"How far are we from affordable Moon travel that’s worth it?" Humanity thrives when it takes risks and embraces exploration. Space is where the next wave of innovation and opportunity lies, and waiting for "perfect timing" ensures we stay stagnant while others move ahead. Why choose doubt over progress?

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1. myrmidon ◴[] No.45668190[source]
We have no lack of spending opportunities for "progress"; there are dozens of promising research fields, and the ressources we can realistically invest are limited.

Most historical progress was driven and motivated by incremental gains; exploration as an end in itself was not even enough to get Columbus funded, and big space projects are much more ressource intensive than that.

> Space is where the next wave of innovation and opportunity lies.

That's just, like, your opinion. I consider this extremely unlikely; to me, the most promising fields short and mid-term are AI and synthetic biology. Space exploration does not even come close-- even if we magically gained the capability to build large scale, self-sufficient cities on Mars and populated them with millions of people (which is extremely unlikely to happen in the next decades)-- what does that do for us? What progress do we gain? If you want to build habitats in unlivable, hostile environments, you can just as well do this in Antarctica, some desert or the deep sea, and I'd consider that likewise mostly an exercise in futility.

edit: To make my position a bit clearer: I think its fine to invest "reasonably" in space exploration; the current moon project I'd consider mostly a waste, but still somehwat justifiable. But spending twice or more of what NASA currently costs on Moon or Mars base projects would be a non justifiable waste in my eyes.

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2. vincenthwt ◴[] No.45676210[source]
1. What is a "reasonable cost," and who decides?

Reasonable cost is subjective, but NASA’s budget provides perspective. At 0.4 percent of the US federal budget, it amounts to just 27 billion dollars in 2023, while the defense budget is 842 billion dollars, or 13 percent of annual spending. Redirecting just 5 percent of defense funding, about 40 billion dollars, would more than double NASA's budget and allow for significant progress on Moon and Mars projects. This minor reallocation would not impact national security, making space exploration both affordable and worthwhile. When we consider the technological, scientific, and economic benefits, investing in space stands out as a smart, future-focused decision.

2. Are there any minerals on the Moon worth exploring?

The Moon holds valuable resources like helium-3 for clean fusion energy, water ice for fuel and life support, and rare earth metals for advanced technologies. Helium-3 could power nuclear fusion reactors and potentially yield trillions of dollars in energy benefits. Water ice can be converted into hydrogen and oxygen, creating rocket fuel that reduces reliance on costly Earth resupplies for space missions. Mining rare earth metals on the Moon could also lessen our dependency on Earth’s finite resources and help minimize ecological damage caused by terrestrial mining. The long-term financial value of these resources far outweighs the costs of extracting them.

3. Will Moon and Mars bases actually double NASA’s existing budget?

This claim is incorrect. The Artemis program, for example, is projected to cost 93 billion dollars over more than ten years, with yearly spending far below doubling NASA’s current 27 billion dollar budget. Additionally, technologies like reusable rockets, such as SpaceX’s Starship, have lowered launch costs by 90 percent, making Moon and Mars exploration increasingly achievable. With international collaborations and private investment, developing these projects is far less expensive than critics often assume, and will not significantly burden taxpayers.

4. What about other technologies, like AI or synthetic biology?

While AI and synthetic biology can offer exciting short-term benefits, they focus on Earth-based solutions and neglect humanity's long-term survival. Space exploration addresses critical long-term challenges, such as resource scarcity, reducing dependence on Earth, and avoiding extinction-level threats. Unlike efforts in Earth’s hostile environments like Antarctica or the deep sea, Moon and Mars exploration unlock completely new resources and pathways for innovation. Delaying investment in space exploration risks stagnating progress, and waiting for the "perfect time" could mean missing transformative opportunities that secure humanity's future.

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3. myrmidon ◴[] No.45680125[source]
1) Reasonable cost is what taxpayers/voters are willing to give. If you want a $100bn NASA budget, you are basically asking every American for $200/y. If you made that optional, I'd argue that a lot (most) Americans would not be willing to pay.

2) I see no probable route for fusion reactors to become a competitive source of terrestrial electricity for at least the next 50 years and possibly never; without that, Helium-3 is mostly worthless (even if your fusion bet works out, you rely on an approach winning that actually needs He3 instead of breeding its own Tritium). For everything else, I don't see extraterrestrial mining being able to compete with current prices, and any significant influx would have it crash/undermine its own market (e.g. we only extract hundreds of tons of palladium globally, per year; doubling the supply would have a major effect on price).

3) I'd argue that current Moon/Mars project are mostly ineffective showmanship/PR. If you actually wanted somewhat self-sustaining settlements/industry within the century, costs would easily eclipse our current defense budget, and without demonstrating the ability to build that on earth first the whole thing would not be credible anyway.

Our current approach to manufacturing (post industrialization) is totally incompatible with self-sustaining colonies, too. There is nothing we could realistically achieve on moon or mars even in a century that is anywhere close to self-sustaining, without basically reinventing how we build things.

So from a risk mitigation point of view the whole endeavour is useless, too (this might change within a century-- synthetic biology specifically would be very promising here).