The difference in philosophy between NASA's current approach and SpaceX is quite stark. SpaceX has launched 11 Starships in the two and a bit years, with a lot of them blowing up. Where as Artemis is trying to get it near perfect on each run.
I wonder if NASA could start to adopt SpaceX like approaches? Where one doesn't try to get everything correct before acting?
I wonder which approach is more capital efficient? Which is more time efficient?
(It seems that Artemis cost is $92B, where as SpaceX's Starship costs are less than $10B so far, give or take. So it seems that SpaceX is a more efficient approach.)
SpaceX hasn't even had the confidence to put Starship in LEO yet, and has not carried 1kg of real payload (and barely a few kg of test payloads) - while SLS did an orbit of the Moon, with real payload satellites.
IMO the Blue Origin hate was overhyped. They're clearly the only ones who know what they're doing. NASA and SpaceX both are way in over their heads.
To OP's point, Artemis has cost $92 billion over 14 years. This has produced exactly one launch.
It's hard to put an exact timeline on Starship since a lot of its development overlaps with Falcon 9 using the same components, but it's inarguable that it has cost one tenth Artemis so far.
I agree that Starship has been plagued by delays and the capabilities are so far mostly just talk. However, it has flown a number of times, and I would be willing to make a strong bet that it will orbit the moon with real payload long before it catches up to Artemis in budget.
The Chinese are basically going to launch a few astronauts up there with a modern Saturn 5. But for them that would be a success because it is their first time.
You only get to land on the moon once before people stop giving a shit.
Depends on what happens once on the moon. If all you do is send 2 people at a time to collect rocks, then it does get boring to the general public. If each landing assembles the next section of a moon habitat, then I think the interest sticks around longer.
If America (or China) says the best spots on the moon belong to America (or China), suddenly it's Space Race 2.0 and everyone cares.
This is what will happen once any building actually starts happening.
This idea is captured nicely in the book "Art and Fear" with the following anecdote: "The ceramics teacher announced on opening day that he was dividing the class into two groups. All those on the left side of the studio, he said, would be graded solely on the quantity of work they produced, all those on the right solely on its quality.
His procedure was simple: on the final day of class he would bring in his bathroom scales and weigh the work of the “quantity” group: fifty pound of pots rated an “A”, forty pounds a “B”, and so on. Those being graded on “quality”, however, needed to produce only one pot – albeit a perfect one – to get an “A”.
Well, came grading time and a curious fact emerged: the works of highest quality were all produced by the group being graded for quantity. It seems that while the “quantity” group was busily churning out piles of work – and learning from their mistakes – the “quality” group had sat theorizing about perfection, and in the end had little more to show for their efforts than grandiose theories and a pile of dead clay."
If we're putting humans into rockets into space, I'd like to think we adopt a balanced approach.
I have no skin in this game other than to say the old school methods resulted in a janky ship that stranded two astronauts in space for months until they could catch a ride home on a SpaceX ship.
The current Starship launches are part of a development and testing program. They expect quite a few failures (though probably not as many as they've experienced). But since each Starship launch is only 1/25th the cost of an SLS launch, SpaceX can afford to blow up a lot of them. And they won't put people on them until they have a track record of safe operation. Falcon 9 didn't have crew on it until the 85th launch.
1. The number of landing attempts is higher than the number of launches because Falcon Heavy results in multiple landings per launch.
NASA/Congress pushes the armchair quarterback approach. Analyze forever, fail because analysis isn't the same thing as real world experience, get stuck using 50 year old rocket technology. Each engine on SLS cost more than the entire Starship super heavy launch vehicle.
By weight the RS-25 engines cost about 70% of that of building their 7000lb mass dry mass out of gold. That's insane.
Challenger was lost because NASA ignored a critical flight risk with the SRB joint O-rings. And by "ignored", I mean "documented that the risk existed, that it could result in loss of vehicle and loss of lives of the crew, and then waived the risk so the Shuttle could keep flying instead of being grounded until the issue was fixed". They didn't need more unmanned testing to find the issue; they needed to stop ignoring it. But that was politically unacceptable since it would have meant grounding the Shuttle until the issue was fixed.
Columbia was lost because NASA ignored the risks of tile damage due to their belief that it couldn't be fixed anyway once the Shuttle was in orbit. But that meant NASA also devoted no effort to eliminating the risk of tile damage by fixing the issue that caused it. Which again would have been politically unacceptable since it would have meant grounding the Shuttle until the issue was fixed.
Which mission are you referring to?
If it's STS-1, AFAIK there were no close call incidents during the actual flight, but the mission commander, John Young, did have to veto a suggestion to make that mission an RTLS abort instead of an actual orbital flight. Doing that would have been reckless, yes: Young's reason for not doing it was "Let's not practice Russian roulette."
The only thing SpaceX truly has an edge is its engines.
They have perfected the engine for a ship like a giant Mars class rockets. And that engine has been in full scale series production for years, while the actual Starship keeps blowing up. The reason they developed their hoverslam landing technology, also, was because they wanted their precious engines back.
It's as if they handed groups of gamers a credit card and they went onto plunder stocks of RTX cards from 20 miles around with some Roombas bought on reward points. It's just inches below the threshold for typical BS detector if it weren't specifically tuned for the relevant topics.
All makes sense if everything was an elaborate ploy to get someone to pay for specifically the engines.
They should not adopt spacex practices, they should adopt spacex lift vehicles (once proven).
that would be such a culture change you'd have to disband NASA and start it over.
It's a risk-averse culture for a reason.
Regardless, first thing it reminded me of was that interview quote about how if nasa had SpaceX track record they would have lost funding long ago. Is there a US political landscape, even back to 2008-2016, where that isn't the case?
inexact quote: "You know, we're throwing towns into the sky" related to the early mishaps of R-7 program development, but they kept doing it. After that R-7 derivatives became the most reliable launch vehicle.
[0] https://www.nasa.gov/history/history-publications-and-resour...
I have not looked at the source (in Russian) for several years; now that I am curious I will check at home tonight. But as far as I remember "we are shooting towns into the sky" remark was not in reference to the R-7, but in reference to N1-L3, a hellishly expensive competitor to the Apollo manned Moon mission rocket. The meaning of the phrase was that each and every test should be taken extremely seriously as the cost of each flight is comparable to the cost of building a new city.
R-7 was developed much earlier when Korolev and his team at OKB-1 were iterating rapidly on much cheaper models that were primarily funded as rockets for strategic thermonuclear strike warheads. The civilian (Sputnik and later Gagarin) flights were an offshoot of that and were small enough that it happened as a side project. R-7 was a comparatively simple and cheap design, which may be why that family became a workhorse from the late 50s to carrying crews to the ISS. And the super expensive N1-L3 was a stillborn.
That's my recollection, need to recheck the sources.
The risk profile is very different.
NASA and SpaceX are fundamentally incomparable, considering how these two organizations are established and the motivations that drive all the actors within. Sure, NASA could start to adopt certain approaches but I don't imagine it to work in a way anyone else would imagine it to.
And don't compare costs because Starship does not and may never work so I dont care how much cheaper it is. If we are comparing fictional rockets I have a $1 rocket that can fly to Jupiter.
They purposely were not trying for orbit from my understanding. The last one did orbit the earth at suborbital heights and release satellites. It did seem to do what they wanted it to do, it wasn't a failure.
Every time you see a Starship launch what you aren't seeing is manufacturing processes corrected, issues in launch protocols and field issues resolved. All the little things that build up to make your system reliable. Do you want the doctor who has done a hundred successful surgeries, or the one who has done one or two but spent a long time in school watching videos.
The big difference is in the end, Starship gets built faster, costs much less, and can do more. It's not even close.
The question is whether you have the appetite for killing three astronauts on a test run like the Apollo team did.
EDIT: Fine, I’ll clarify. By “SpaceX like approach” I mean iterative design. By “more aggressive” I mean risk tolerance much greater than SpaceX to the degree that they do things that SpaceX wouldn’t do.
Calling it a "SpaceX like approach" and connecting to Apollo 1 is a neat trick, but SpaceX wouldn't (and doesn't) adopt that risky approach during manned flights.
It's all about "the right risk for the job." You can't be risky with human safety, but you also don't want to be overly timid and failure-averse during safely managed R&D tests, or your R&D grinds to a halt.
This seems so ridiculous in the abstract. Like, what is that exactly supposed to entail in the context of launching rockets?
The cost of going from "I think this will work" to "I know this will work" is really expensive. It might be cheaper/faster to fail a few times and fix those problems than it would be to verify everything up front.
SpaceX might design and build the nozzle, then put it in the rocket and launch it. It might work how they intended, or it might not, but they'll find out immediately. They'll make changes, build a new nozzle, launch another rocket, and continue until it works like they want.
NASA will do a lot more testing, simulation, redesigning, etc. until they KNOW that the nozzle will perform perfectly on the first try.
On the surface, NASA's approach sounds cheaper because you aren't wasting rockets. In reality it looks like SpaceX's approach might be better.
And we 'tried until it didn't blow up immediately' is not a great sign.
But everything that didn't blow up has been tested 11 times already. Things that did fail have had more than one design iteration tested. One approach has gains more real-world test experience.
JPL would blow up a rocket every week, if the budget had room for it. Alas, we don't see that testing pace outside defense procurement.
Godspeed to them, hopefully I'm being overly dour.
Good thing we have a large number of CRUD SaaS experts to tell us what's wrong with the space program
But even assuming we do view it as a deadline, the Apollo 1 losses are a pretty good argument that maybe we shouldn't repeat that.
Then you had Challenger, when experts were not listened to, and people died when they shouldn't have.
I don't understand the hostility.
SLS, a rocket derived from Shuttle tech, takes astronauts on the Orion spacecraft to the vicinity of the moon. From there, a lander built by either SpaceX or Blue Origin will take the astronauts to the surface and then back to Orion. The astronauts will then return to Earth in Orion.
Artemis I flew a couple of years ago and took an uncrewed Orion spacecraft around the moon and back to Earth.
Artemis II, which should hopefully fly in April, will take 4 astronauts around the moon--the first time humans have been that far in space in 50+ years.
Artemis III was going to be a crewed moon landing, planned around 2028, but between delays in the lander development and the complexity of this mission, no one expected it to happen on time.
The major change that NASA has announced is to launch SLS more often--ideally once every 10 months. There are two major advantages to this:
1. More frequent launches will improve reliability because the team/engineers will understand the system better. There will be more commonality between launches.
2. With more launches before the end of the decade deadline there are more opportunities for intermediate milestones. In particular, Artemis III will turn into an Earth-orbit mission in which Orion will dock with one or both of the landers. This will test out the system before heading to the moon. Moreover, NASA plans to have at least two lunar landing attempts in 2028, which means that even if the first attempt is scrubbed, they will still have a chance to land before the end of the decade.
Launch cadence across NASA programs:
https://x.com/NASAAdmin/status/2027456699175497741
An infographic showing the new architectures:
https://x.com/NASAAdmin/status/2027456713507356713
It's interesting how Artemis III (the new one) will try to prove out both HLS landers in one LEO mission.
(I don't know what the current policies are but you used to be able to apply in advance for VIP tickets, or buy them on the secondary market, which gives you much closer viewing of the launch)
We unanimously agreed KSC was by far the best of all. If you only do one thing in Florida, that would be it.
If you've never seen a gator then looking in the ditches by the road during the bus tour is a good bed.
Explaining Why NASA's Starliner Report Is So Bad > https://www.youtube.com/watch?v=L96asfTvJ_A
Artemis objectives are less well defined, more ambitious and with way less money. The big budget is being allocated to brutes killing people in the streets and a decadent ballroom for the emperor. The difference in importance between the two is the cause of all the failures.
The reason modern projects take so long is that so many of them are stuck in design or awaiting funding stage for what feels like interminable ages; once the construction phase starts, they tend to go fairly quickly. But if you look at projects 100 years ago, well, they also seem to have fairly lengthy pre-construction timelines. It's just that we conveniently forget about those when we look back on them nowadays.
Some regs are worth it, certainly, but being overly cautious is in itself unsafe.
But there's no lack of huge achievements. The Mars rovers are amazing: super-sonic parachutes, retro rockets, deploying a little helicopter with no real-time control is huge. So is planting JWST at the L2 point and unfolding it a million miles from earth.
Also, the NASA budget in the 1960's was 10 times higher.
If you look at the unmanned side of NASA, that's going great. NASA can get amazing stuff done.
The manned side gets political attention, and the nature of current politics makes it a bad kind of attention. Results are essentially irrelevant. Jobs and cronyism are the point.
The overall design of the Space Launch System makes very little sense. We know all too well that solid rockets are a bad idea for crewed spaceflight. Hydrogen is a bad fuel for a first stage. It's horrendously wasteful to use expensive, complicated engines designed to be reused, and then throw them away on every launch. Early estimates were over $2 billion per launch, which in the current age is total clownshoes. The actual costs will be much higher still.
So why are they doing it? Because using all this old, rather inappropriate tech allows them to keep paying the contractors for it. If you gave NASA a pile of money and told them to build a moon program, they wouldn't build this. But it's not their choice.
Each F1 rocket engine was hand tuned by drilling holes into the "plate" so it would not cause the combustion mixture to vibrate the engine into smithereens.
Such an approach would never be tolerated today by NASA.