I haven't kept up with Artemis development but I've read extensively about Challenger and Columbia. These two parts of the article stood out to me:
> Moon-to-Mars Deputy Administrator Amit Kshatriya said: “it was very small localized areas. Interestingly, it would be much easier for us to analyze if we had larger chunks and it was more defined”. A Lockheed Martin representative on the same call added that "there was a healthy margin remaining of that virgin Avcoat. So it wasn’t like there were large, large chunks.”
Followed by:
> The Avcoat material is not designed to come out in chunks. It is supposed to char and flake off smoothly, maintaining the overall contours of the heat shield.
This is echoes both Shuttle incidents. Challenger: no gasses were supposed to make it past the o-rings no matter what, but when it became clear that gasses were escaping and the o-rings were being damaged, there was a push to suggest that it's an acceptable level.
There was a similar situation with heat shield damage and Columbia.
In both cases some models were used to justify the decision, with wild extrapolations and fundamentally, a design that wasn't expected to fail in that mode /at all/.
I know the points that astronauts make about the importance of manned space exploration, but I agree with this author that it seems to make sense to run this as an unmanned mission, and probably test the new heat shield which will replace the Artemis II design in an unmanned re-entry as well.
"The Challenger accident was not caused by O-rings or temperature on the day of launch; it was caused by a deviant joint design which opened instead of closed when loaded. It was caused by mistaking analytical adequacy of a simplified test for physical understanding of the system. The solution, post Challenger, was the structural redesign of the SRB field joint and the use of the exact same O-rings."
I find that highly surprising, because "it was the O-rings" explanation seems universally believed and sanctified by no lesser authority than the Nobel prize laureate Richard Feynman.
It's the same explaination. When the SRB joints flexxed the o-rings were meant to stay in place, but the joints were defective and NASA knew the o-rings were moving. However NASA also believed the o-rings could still take the abuse, because although they were moving they were getting shoved deeper into the joint, in a way that wasn't intended but was nonetheless at least marginally effective at stopping exhaust blow-by shortly after it began. But when the o-rings were cold and stiff... they didn't move the same way, exhaust blew by them longer and cut right through. At that point the SRB turns into a cutting torch (the SRBs didn't actually explode until after the shuttle broke up and range safety sent the signal to kill the boosters.
Without being too familiar with the subject - another commenter referred to the "swiss cheese model": the O-ring design, the temperature etc. weren't the single cause, they were contributing factors, and the more contributing factors you eliminate, the more certain you can be that you won't have a repeat accident. AFAIK there weren't any more Shuttle launches at such low temperatures after that anymore either?
Using the same o-rings afterwards is surprising, I've heard that the manufacturer was surprised that they were being used for that purpose because they weren't rated for that.
Also I'm not sure the assertion is correct. If the sealant and O-Rings were adequate, the joint would not have failed. It was suboptimal, and increased risk, sure, but it in itself wasn't the reason for the accident. It was the joint and the o-rings in combination. The holes in the swiss cheese model lined up that day, and a lot of small problems combined into one big problem
The sealant and O-rings were meant to keep the hot gasses inside. Simply making a joint slightly wiggly will not keep hot gasses inside. The hot gasses did not stay inside. The sealant and O-rings did not succeed in keeping the hot gasses inside (evidence: Challenger). They were not adequate
> The sealant and O-rings did not succeed in keeping the hot gasses inside (evidence: Challenger). They were not adequate
No. The whole assembly --joint, sealant and O-rings, -- failed.
"They were not adequate" - yet, after the redesign, they kept those same O-rings and declared that boosters are safe to fly, in manifest contradiction to your assertion. So your reasoning is clearly flawed.
Yes and the reversal of safety calculations really surprised me. "The orbiter has a total fail rate of one in 1000 so this individual part is higher than 1 in 10000", something like that. Where neither premise was actually tested or verified. Just specified on paper as a requirement and then used for actual safety calculations.
I don't know how a big organisation can think like that. But I guess these calculations were ones out of millions of ones made for the project.
The bigger an organization gets, the more internal overhead it has. At some point, it would take divine intervention for important things not to get overlooked or lost at some junctions in the org chart.
I've often thought world leaders, upon election/selection, should get a free few orbits of the earth, to give them some perspective on the job they're about to undertake. Maybe offer the first one on Artemis II, a deferred one for the current US administration?
James May of Top Gear has flown with a U2 spy plane once [0][1]. When they reached to the edge of space, May said "If everybody could do that once, it would completely change the face of global politics, religion, education, everything".
I can't agree more.
Another thing I believe needs to be watched periodically is Pale Blue Dot [2].
I think you overestimate the effect that would have on the kind of people that most need that sort of humility.
Look at what happened with William Shatner and Jeff Bezos when they came back from space. Shatner started to say something about what an impactful experience it was, but Bezos cut him off and was like “Woo! Partay!” and switched his attention to a magnum of champagne.
>I've often thought world leaders, upon election/selection, should get a free few orbits of the earth, to give them some perspective on the job they're about to undertake.
Perhaps, but they should also get a few free orbits of the Earth *after* their term ends, on a launch system built by whichever contractor has given the most "campaign donations" to politicians. Surely they'll trust it to be safe, right?
I would also say give them a year of free vacations in various places. Say a maximum security prison in general population, any type of dark camps, hospitals, mental institutions and care homes.
Give them the rest and recreation they need in these wonderful places.
"Houston, this is Golden One. I'm looking down on the big, beautiful, blue world. They love me down there. They all love me. I'm the greatest astronaut ever in the history of mankind. No one has ever orbited like this before."
I mean, we can probably predict what will happen based on existing data.
"I've seen things up there that are huge, absolutely huge. And let me tell you, astronauts, they came up to me, they were crying, big men crying. Earth, it's a good name, but it's not big enough, not grand enough. So, I'm thinking we rename it. How about 'The Trump Sphere'? It's got a nice ring to it, doesn't it? And let me tell you, nobody would argue with that name!"
Based on some rough numbers, NASA's budget (around $24B) would be <4% of the US's total spending on entertainment, with a pretty great return in research, engineering and education to boot.
I also looked up the NSF's 2024 budget, which, at $9B, was much lower than I expected.
There are actually a lot of really interesting discoveries on that list. I haven't thought deeply about whether it represents value for money, but I would say that that is anything but "a joke of a list."
Hard disagree. some of our best technologies came about to solve problems related to space travel which we later found useful for mundane problems at home. gps, digital cameras immediately come to mind. The only other phenomena I can think of with similar effects on human progress is war... I'll take a space race thanks
About war: in our universe we got the first digital computers because of military efforts during the second world war. However, without a war IBM and Konrad Zuse and others would have gotten there, too. With much less human suffering.
It's unlikely computing would have developed as quickly as it did without the Cold War. IBM's Sage and MIT's TX0 were both Cold War projects - one for a national early warning system, the other as an R&D platform for flight simulators.
Most US investment in associated tech - including the Internet - came through DARPA.
Not pointing this out because I support war, but to underline that the US doesn't have a culture of aggressive government investment in non-military R&D.
NASA and the NSF both get pocket money in budget terms. And at its height Apollo was a Cold War PR battle with the USSR that happened to funnel a lot of of money to defence contractors.
The original moon landings were not primarily motivated by science.
I have a hunch that space race is not for "peaceful technological progress of human race at large", or "let's see how this behaves in 0G, it might be useful for some global problems" anymore.
Firstly how is this related to opportunity costs. Secondly, no one said that to create digital computer you should start a war. It's just that war is already present, regardless of you invent digital computers or space travel.
If the NFL were to somehow become involved, you can bet that they'd somehow manage to turn the financials around and get some of that sweet government money flowing in their direction, just like the dozens of taxpayer-funded or otherwise tax-advantaged stadium deals in the past 25 years that allow us to thank Big Football financially for gracing us with the presence of football teams.
It is astounding to me how such a successful, rich group of companies manage to get subsidies in quantities that groups you'd think deserve or need it more, from valuable science endeavours to orphans dying of cancer, can only dream of.
Is there any research on the effect of apparent gravitational field strength on sports? I’d be willing to bet that rocketry and artillery takes account of 50mm/s2 difference at the equator. While the difference is obviously tiny, the margins in modern sports are also miniscule.
Do Fijian rugby games see a 0.5% increase in longest drop goal distance?
I have no idea about the 0.5% increase in drop goal distance, but tongue-in-cheek, I would say only 0.5% as many attempted drop goals - given the Fijian team's emphasis on a ball-in-hand style of play instead of kicking the ball away.
On a slightly related note, I always found the games played in Pretoria in South Africa fascinating. It's 1350 m above sea level, so kicks all go 10% to 15% further (my estimate) which makes quite a difference when there are players kicking penalties from over halfway even at sea level.
just wait until influencers start flying there. Not on SLS of course. Flyby on Starship cattle class - say 100 people (500 for LEO and "SFO to Shanghai" while for Moon - several days would require better accommodations, thus 100) - at $5M/launch, 10 launches (9 of them - tankers) - thus $50M 3 day roundtrip for 100 people. Half a mil per person.
I really don't understand the point of manned space exploration though?
Landing on the moon in 1969 was an extraordinary achievement, perhaps the most beautiful thing ever done by mankind. But now? What's the point exactly?
We know we can't go much further than the moon anyway (as this very same blog has demonstrated many times); what do we expect to achieve with astronauts that robots can't do?
I think it's still very important for adaptability. yes, a land rover can run for years and run thousands of experiments, but it's limited to whatever scientific probes it was equipped with. Humans are right now more flexible and could adapt experiments to findings, which would then inform the next rovers. And when the time comes that we start mining and building on the moon, a few humans will probably need to live there. So any data on human survival outside the Earth is useful data. https://humanresearchroadmap.nasa.gov/
Camarda is an outlier. The engineers at NASA believe it is safe. The astronauts believe it is safe. Former astronaut Danny Olivas was initially skeptical of the heat shield but came around.
And note that the OP believes it is likely (maybe very likely) that the heat shield will work fine. It's hard for me to reconcile "It is likely that Artemis II will land safely" with "Artemis II is Not Safe to Fly", unless maybe getting clicks is involved.
Regardless, this is not a Challenger or Columbia situation. In both Challenger and Columbia, nobody bothered to analyze the problem because they didn't think there was a problem. That's the difference, in my opinion. NASA is taking this seriously and has analyzed the problem deeply.
They are not YOLO'ing this mission, and it's somewhat insulting that people think they are.
If you play a single round of Russian roulette with a revolver, it is likely you will not die, but it is also not safe to do that. The same idea applies here.
The foam shedding/impact problem was heavily analyzed throughout the Shuttle program, and recognized as a significant risk. Read the CAIB report for a good history.
That report also describes the groupthink dynamic at NASA that made skeptical engineers "come around" for the good of the program in the past. Calling Camarda an outlier is just a different way of stating this problem.
It looks like they did some worst case testing that was reassuring, so that it isn't Russian roulette? Any comments on that? I suppose their composite testing and temperature projections could also be wrong, and their trajectory changes might not be mitigating enough for the heat shield chunking, but that's a few different things all simultaneously being wrong for a catastrophic failure to occur.
The NASA engineers wanted to understand what would happen if large chunks of the heat shield were stripped away entirely from the composite base of Orion. So they subjected this base material to high energies for periods of 10 seconds up to 10 minutes, which is longer than the period of heating Artemis II will experience during reentry.
What they found is that, in the event of such a failure, the structure of Orion would remain solid, the crew would be safe within, and the vehicle could still land in a water-tight manner in the Pacific Ocean.
Hang on, without a dog in this fight, have I asked the people who trained their whole lives to drive cool cars if this particular cool car, which they were not involved in designing or building, is safe to drive? Is that what you are asking?
The astronauts are cool with it. They are basically brainwashed to rationalize exceptional trust in all of the people and components so that they are able to focus on the task at hand.
But then no spacecraft is safe to fly. We're obviously willing to accept a much higher level of risk sending humans to the moon than in other situations. I think I read somewhere at a 1 in 30 chance of them all dying was acceptable. Not too far off from Russian roulette!
> In both Challenger and Columbia, nobody bothered to analyze the problem because they didn't think there was a problem.
False on both counts. Both the SRB joint design issue and the foam shedding were known, researched and dismissed very early in the shuttle program. They suspected it after STS-1 and confirmed it within a few flights.
> In both Challenger and Columbia, nobody bothered to analyze the problem because they didn't think there was a problem.
Being pedantic, NASA management "ignored" engineers - because money.
That said, I 100% agree with you assuming:
> “We have full confidence in the Orion spacecraft and its heat shield, grounded in rigorous analysis and the work of exceptional engineers who followed the data throughout the process,” Isaacman said Thursday.
I only say assuming not that I don't believe Isaacman, but historically NASA managers have said publicly everything's fine when it wasn't and tried to throw the blame onto engineers.
With Challenger, engineers said no-go.
With Columbia, engineers had to explicitly state/sign "this is unsafe", which pushes the incentivisation the wrong direction.
So, I want to believe him, but historically it hasn't been so great to do so.
There were a lot of mistakes with Challenger and Columbia--I totally agree. But I don't think it was money. It's not like the NASA administrator gets a bonus when a rocket launches (unlike some CEOs, maybe).
I think the problem with both Challenger and Columbia was that there were so many possible problems (turbine blade cracks, tiles falling off, etc.) that managers and even engineers got used to off-nominal conditions. This is the "normalization of deviance" that Diane Vaughan talked about.
Is that what's going on with the Orion heat shield? I don't think so. I think NASA engineers are well aware of the risks and have done the math to convince themselves that this is safe.
> It's not like the NASA administrator gets a bonus when a rocket launches
It's related to funding. I mean it's always money, right?
But in Challenger's case, there was very heavy pressure to launch because of delays and the rising costs. I remember in a documentary they explicitly mentioned there was a backlog of missions and STS-51 had been delayed multiple times. To rollout/fuel, costs a LOT and challenger had been out on the pad for a while. Rollback was a material risk+cost.
For columbia, yea less about money. They ignored the requests to repoint spy sats and normalized foam strikes.
> I think NASA engineers are well aware of the risks and have done the math to convince themselves that this is safe.
And that's the way it should be. Everything has a risk value regardless if we calculate it or not. It's never 0... (maybe accidentally going faster than light is though?) We just need to agree what it is and is acceptable.
Story time - I was a young engineer at National Instruments and I remember sitting in on a meeting where they were discussing sig figs for their new high precision DMMs. Can we guarantee 6... 7 digits? 7? and they argued that back and forth. No decisions but it really stuck with me. When you're doing bleeding edge work the lines tend to get blurry.
> It's related to funding. I mean it's always money, right?
This sounds more like there is money in the room than it’s about the money. None of the decision makers personally profited from saying go. It was much more of a prestige thing.
"It is likely that Artemis II will land safely" and "Artemis II is Not Safe to Fly" are both compatible with the probability of a disaster on reentry being 10%.
>The NASA engineers wanted to understand what would happen if large chunks of the heat shield were stripped away entirely from the composite base of Orion. So they subjected this base material to high energies for periods of 10 seconds up to 10 minutes, which is longer than the period of heating Artemis II will experience during reentry.
> What they found is that, in the event of such a failure, the structure of Orion would remain solid, the crew would be safe within, and the vehicle could still land in a water-tight manner in the Pacific Ocean.
Indeed, this is a much more balanced take. And it turns out that the OP armchair expert is assuming NASA doesn't know what they are doing or is negligent.
The OP links a document from former astronaut Charles Camarda, who NASA explicitly invited in to check their work, and who observed the press conference the Ars article comes from. He addresses every point in it, including that one. Just because an article is contrary to a strident opinion doesn't make it 'balanced'. It matters whether the actual facts are true or not.
I mean, it isn't like there are not multiple precedents for NASA to find a surprise safety issue, talk it down, and then see it literally blow up in their faces.
NASA is an institution and the incentives align with launching despite risk in cases where the risk was completely unanticipated. The project has its own momentum that it has gathered over time as it rolls down collecting opportunity costs and people tie themselves to it. If you think an astronaut would pull out of a launch because of a 5% risk of catastrophe... well you are talking about a group of people which originated from test pilot programs post-WWII where chances of blowing up with the gear was much much higher, so even though modern astronauts don't have the same direct experience, it isn't beyond reason to assume they inherent at least a bit of that bravado.
Maybe. What was the probability of Loss of Crew during Apollo? There were 9 crewed missions and 1 almost killed its crew (I will omit Apollo 1 for now). I could argue that Apollo had a 1 in 20 chance of killing a crew. Indeed, that was one reason given for cancelling the program.
The first Shuttle launch probably had a 1 in 4 chance of killing its crew. It was the first launch of an extremely complicated system and they sent it with a crew of two. Can you imagine NASA doing that today?
In a news conference last week, a NASA program manager estimated the Loss of Mission chance for Artemis II at between 1 in 2 and 1 in 50. They said, historically, a new rocket has a 1 in 2 chance of failure, but they learned much from Artemis I, so it's probably better than that. [Of course, that's Loss of Mission instead of Loss of Crew.]
My guess is NASA and the astronauts are comfortable with a 1 in 100 chance of Loss of Crew.
> There were 9 crewed missions and 1 almost killed its crew (I will omit Apollo 1 for now). I could argue that Apollo had a 1 in 20 chance of killing a crew.
That's not how risk analysis works.
Let's say every Apollo mission had gone flawlessly, and no one even came close to dying. Would you then say that the risk of death for future missions would be zero? No, of course not.
> I could argue that Apollo had a 1 in 20 chance of killing a crew.
NASA computed the chance of “landing a man on the Moon and returning him safely to Earth” as less than 1 in 20. I would think a lot more than 1 in 20 of those failures would result in killing crew members.
Joseph Shea, the Apollo program manager, chaired the initial Apollo systems architecting team. The “calculation was made by its architecting team, assuming all elements from propulsion to rendezvous and life support were done as well or better than ever before, that 30 astronauts would be lost before 3 were returned safely to the Earth. Even to do that well, launch vehicle failure rates would have to be half those ever achieved and with untried propulsion
systems.”
The high risk of the moon landing was understood by the astronauts. Apollo 11's Command Module pilot Mike Collins described it as a “fragile daisy chain of events.” Collins and Neil Armstrong, the first man to step on the
moon, rated their chances of survival at 50-50.
The awareness of risk let to intense focus on reducing risk. “The only possible explanation for the astonishing success – no losses in space and on time – was that every participant at every level in every area far exceeded the norm of human capabilities.”
However, this appreciation of the risk was not considered appropriate for the public. During Apollo, NASA conducted a full Probabilistic Risk Assessment (PRA) to assess the likelihood of success in “landing a man on the Moon and returning him safely to Earth.” The PRA indicated the chance of success was “less than 5 percent.” The NASA Administrator felt that if the results were made public, “the numbers could do irreparable harm.” The PRA effort was cancelled and NASA stayed away from numerical risk assessment as a result.
Camarda isnt an outlier.
Lots of people left that project after the Experimental Flight Test, which was done with the honeycomb (making Avcoat truly Avcoat) in 2014. Without Avcoat, spalling was inevitable and breakoff, oh yeah.
The design change by LM, not commentedkn by Textron is like. a beehive with no honeycomb-a crystallized block of
honey.
i'll take the structural support of honeycomb any day.
It's a normalization of deviance. That is what Charlie is bringing voice to.
Many of us fear reprisals and even when talking to heads of, like with Columbia, we are
ignored.
So, Charlie is a voice of many people, not an outlier.
In the space shuttle disasters the hardware had at least been used more than once. A huge lot of this one is only tried and tested on paper.
And the idea that 'if we throw this much money at it, it really must be fine' I don't buy either. Look at how that worked out for Boeing.
For all my feelings about Musk I would much rather step into a rocket that has exploded in all kinds of imaginable situations before so they know how the materials and design actually behave in real world scenarios. I do really think that is the way to go.
> The engineers at NASA believe it is safe. The astronauts believe it is safe.
This take completely ignores Camarda's observations that there is a culture of fear spreading at NASA which punishes whistleblowers. I'm not saying he's 100% correct, but how can you claim such a take is truly balanced if there's a possibility one of the parties is engaging in a cover-up?
The engineers at NASA & astronauts aboard Columbia & Challenger also believed the programs were safe.
"It will be the second flight of the Space Launch System (SLS), the first crewed mission of the Orion spacecraft, and the first crewed mission beyond low Earth orbit since Apollo 17 in 1972."
such "second/first" were ok 60 years ago. Today the only reason for that is that the SLS isn't reusable while the cost is hyper-astronomical.
Today's tech complexity, engineering culture and overall managerial processes don't allow the first/second to succeed as a rule. Even the best - Space X - has got several failed launches back then for Falcon and now for Starship.
Of course we wish success, and it will probably succeed - just like the Russian roulette so aptly mentioned in the sibling comment.
> It's hard for me to reconcile "It is likely that Artemis II will land safely" with "Artemis II is Not Safe to Fly", unless maybe getting clicks is involved.
Look up the term "expected value". If pressing a button has a 10% chance of destroying Earth, it is both 1) likely that pressing it will do nothing AND 2) the case that pressing it is extremely unsafe.
As a former NASA guy I would trust Eric Bergers measured and detailed reporting here over that blog post that says they are all going to die
As he shows that Olivas changed his mind:
“ Olivas told me he had changed his mind, expressing appreciation and admiration for the in-depth engineering work done by the NASA team. He would now fly on Orion”
Anyway we live in an age of armchair experts in youtube (who are often very smart but quick to rush to judgment without enough context)
The article explains the situation in a more balanced and fair light
Someone please answer my obvious question. We sent successful missions to the moon sixty years ago. What heat shield material was used for the Apollo capsules, and why would we need something different now? Are the Artemis mission parameters totally different in a way that requires a new design? Or was Apollo incredibly dangerous and we got lucky they didn’t all fail catastrophically? The article mentions Orion is much heavier than the Apollo capsules, does that really require a totally novel heat shield that takes $billions to develop?
The Apollo command module used Avcoat, the same material as Orion. But there are two key differences:
1. The application method is different. Apollo applied it to a metal honeycomb structure with very small cells, while Orion uses blocks of the material. (NASA tried the honeycomb approach for Orion, but it was too labor-intensive).
2. Orion is much bigger and heavier than the Apollo command module. The informal consensus is that Apollo may have been at the upper size limit for using Avcoat.
Engineering is done in the context of constraints, cost is one constraint - and its a relatively conserved constraint. Saving labor in one area allows for more care in other areas. Especially given that labor is often not cost constrained, but skill constrained, which is less elastic.
The fix for not doing that by hand is to get a robot to do it, given the applicator is human-held, a human-strength Kuka with enough reach to cover the area it can handle before the applicator needs refurbishment of some sort which would give a good opportunity to move the robot to a new section of the heat shield.
Just out of curiosity, do we know if the honeycomb method worked before it was deemed too labor intensive? Because I'm told that using this block method results in chunks blowing out.
I'm also having a problem with this set-up: Apollo is at the upper size limit for avcoat; Orion is way bigger; use avcoat.
Reading a real front-fell-off aura from this project. It makes me wonder if spending 6% of GDP to develop and run a crewed lunar program 60 years ago and then immediately destroying the evidence, r&d artifacts, and materials fab capabilities was a good idea.
“…in early 2026, NASA decided to add an additional Artemis mission to the manifest. The new Artemis III would fly in 2027 as a near-Earth mission to test docking with whatever lunar lander (Blue Origin or SpaceX) was available. The first moon landing would be pushed back to the mission after that, Artemis IV. This change removed any rationale for flying astronauts on Artemis II.”
Is there truly no engineering or science merit to flying astronauts by the Moon?
> “Our test facilities can’t reach the combination of heat flux, pressure, shear stresses, etc., that an actual reentering spacecraft does. We’re always having to wait for the flight test to get the final certification that our system is good to go.”—Jeremy VanderKam, deputy manager for Orion’s heat shield, speaking in 2022
The Orion heat shield is sixteen feet across. NASA's test facilities can only test small material samples in these facilities, not capture how the entire heat shield will behave.
There were 19 successful unmanned Dragon 1 missions before Crew Dragon, and an unmanned Crew Dragon mission before the first crewed one (actually two missions, but one didn't reenter from orbit). The heat shield material and design was essentially the same and so there was a great deal of flight heritage.
In particular I don't think its physically possible to test Orion components in flight very many times. It relies on SLS which chews through 4 space-shuttle engines every time, which even with unlimited money I don't think you could acquire a large supply of very quickly.
By having a much higher launch cadence and then analyzing the flight hardware afterwards.
Also, they don't have anything human rated going beyond LEO. Coming back from the moon means you're going significantly faster and thus need a better heat shield
This is a concerning read, I'm not quite sure what the driving motivation is for Artemis, but the following answered at least part of my question -
> That context is a moon program that has spent close to $100 billion and 25 years with nothing to show for itself, at an agency that has just experienced mass firings and been through a near-death experience with its science budget
I am very not brave but I'd volunteer. The trip is far more awesome than anything I have planned for the rest of my life. And if the shield fails on reentry it would only hurt for a few seconds. So if the crew and the backups and their backups read this and have second thoughts, ping me.
You would probably not IRL and if you would anyway it would just mean you're not qualified for the flight. Nasa needs smart people who wants to live and succeed their mission, not people who are ok to die because muh space exploration
That’s definitely not my point, what I meant was it’s not unreasonable for someone who’s older - maybe children have grown, at our nearing retirement, etc. - why not take a risk to fly to space?
HN generally skews towards the life-affirming/death-fearing quadrant so I don't think many will relate to you here. It still seems safer than being in an active warzone which hundreds of millions of people somehow manage to tolerate.
But that was exactly the point I was responding to, no? If NASA was fine with skipping the astronauts, then they would just send it unmanned, not find a random volunteer.
especially not one that may chicken out ( "very not brave" ) and destroy the cabin from the inside out by any means necessary (bashing at walls, pissing in cracks, etc.)
If you are serious about moon, there should be dozen of unmanned landers setting up the infrastructure before first human landers. There should be plenty of time to test human rated stuff multiple times. This is only problem because it's second mission and right with humans. If it was 24th and first human mission all these unknowns would be solved.
Ergo the mission design is wrong, not the heat shield design.
The heatshield is not quite Avcoat. It is missing the crucial honeycomb that gives it structural integrity. I worked on EFT-1. It's test flight was gorgeous (2014). LM decided to remove the honeycomb. It is like a beehive with no honeycomb.
I changed projects bc it was obvious to that the risk was substantial, long befor Artemis was called Artemis, people said this.
Definitely concerned to hear but I’m hopeful that the core of nasa is intact. They’re some of the kindest and smartest people I’ve had the pleasure of meeting. They don’t joke around with lives on the line. I hope the best for everyone involved. I’ll be watching the launch of Artemis 2 and 3 with excitement and hope.
> The trouble is that the heat shield on Orion blows chunks. Not in some figurative, pejorative sense, but in the sense that when NASA flew this exact mission in 2022, large pieces of material blew out of Orion’s heat shield during re-entry, leaving divots. Large bolts embedded in the heat shield also partially eroded and melted through.
Fun wording. This isn't news, concerns have been raised about Artemis II saftey in the past 3+ years since Artemis I and before then as well.
The only thing the author of this blog piece has to offer that’s new is his very strong personal intuition that the new design hasn’t been properly validated, without any engineering explanation about why the testing the performed won’t adequately simulate real world performance.
I’m fairly confident NASA doesn’t read Maciej’s blog. However I’m confident that many people there read the Google doc he linked to. I suggest you do too.
I didn’t even have a strong interest in space before the dude started writing about it. Maciej could write about literal rocks and make it worthwhile to read.
I just read one blog post ("Musk on Mars") and it was indeed excellent. He seems to have quite a small readership though, judging from the Substack reactions.
To some extent I think since the challenger disaster trying to blow the whistle on safety issues at NASA has been romantacized.
For me, so long as the information is transparently discussed with the astronauts they can agree or disagree. But the task is intrinsically extremely risky.
It makes it very challenging for anyone to really know how to balance those risks.
The peak outcome (modal, mean at least) is a good outcome. But the tail is very very long with all the little ways a catastrophe can occur. I think the median outcome is also deeply in the "good" category.
The Artemis program has cost over $100 billion so far.
It doesn’t make any sense to spend that much money on something that’s still Russian roulette for the astronauts.
If the purpose of the human risk is to let the agency accomplish more, then it needs to be reflected in the cost as a drastic reduction (so you can actually spend the money on doing more). Now Artemis is the worst of both worlds.
I wonder what the heat shield engineers actually think of this. It's my understanding that in the Challenger disaster, the engineers were aware of the problem and tried to do something about it, but management weren't having it
> The most energetic voice of public dissent has been heat shield expert and Shuttle astronaut Charles Camarda, the former Director of Engineering at Johnson Space Center. [...] he ended up publishing a cri de coeur that I encourage everyone to read in full.
I wouldn't be nearly so concerned if not for the blatant coverup and downplaying from NASA. This makes the whole situation easily pattern match to Apollo 1, Challenger and Columbia, where political pressure to ignore problems and drive forward anyway got people needlessly killed.
Looks like they did some reassuring testing for the worst case scenario:
The Avcoat blocks, which are about 1.5 inches thick, are laminated onto a thick composite base of the Orion spacecraft. Inside this is a titanium framework that carries the load of the vehicle. The NASA engineers wanted to understand what would happen if large chunks of the heat shield were stripped away entirely from the composite base of Orion. So they subjected this base material to high energies for periods of 10 seconds up to 10 minutes, which is longer than the period of heating Artemis II will experience during reentry.
What they found is that, in the event of such a failure, the structure of Orion would remain solid, the crew would be safe within, and the vehicle could still land in a water-tight manner in the Pacific Ocean.
I was thinking of the risk of the crew capsule burning up on reentry, due to a possibly faulty heat shield — and people in charge knowing about the risk beforehand but going on with it anyway.
I had forgotten that O.J Simpson had been in the movie, to be honest.
NASA operates as a terminal, bloated monopoly that has completely severed its feedback loops with physical reality in favor of preserving a 25-year-old architectural fantasy. The Orion heat shield is essentially a buggy hardware release being pushed into a mission-critical production environment despite the fact that its own internal telemetry is screaming about a catastrophic failure. By choosing to ignore the spalling and the melted structural bolts, the agency is deliberately discarding the engineering equivalent of core dump data to maintain a schedule that satisfies political optics rather than Newtonian physics.
It's not actually Avcoat.
It was changed by LM.
Thw honeycomb was removed.
Imagine a beehive with no honeycomb and a slop of honey is what you have. Crystallized/solid honey, but honey never the less.
What I don't get is why the heck are the astronauts willing to risk their lives on something they must know by now is so dangerous? Is it really better to risk death than to risk getting fired?
To be honest I don't know how close to non-fiction "The Right Stuff" (book or film) was but if you watch it you'd maybe gain an understanding for why astronauts do these things. At least that part is believable.
This degree of lifespan-maximization is something you might have but others don’t necessarily share. E.g. old people went to Fukushima to sort it out. “Was it really better to risk death than to risk getting fired?”
Neither of these are major risks compared to never being what you want to be.
In that case it seems all right. Certainly if I died in Apollo 1 and I cared about spaceflight and making it to the Moon before the Russians I wouldn’t see it as unworthy.
Some people go to war for the thrill of it, others do base jumping, free solo climbing and whole lot of other activities that eventually kill many of them. It is in their genes.
The author seems to have a pretty extensive history of… strong disdain for Artemis II. While has mentioned concerns about the heat shield before it was in the context of a laundry list of complaints, and it was nowhere close to the top.
I’m not a rocket scientist, but then neither is the author.
> That context is a moon program that has spent close to $100 billion and 25 years with nothing to show for itself, at an agency that has just experienced mass firings and been through a near-death experience with its science budget. The charismatic new Administrator has staked his reputation on increasing launch cadence, and set an explicit goal of landing astronauts on the Moon before President Trump’s term expires in January of 2029.
This is the most frustrating part. The Pentagon can fail the same audit multiple times and be missing trillions of taxpayer dollars but NASA has to move heaven and earth to show their relatively paltry $100B budget isn't going to waste. I'm tired of the double standards.
> if a commercial crew capsule (SpaceX Dragon or Boeing Starliner) returned to Earth with the kind of damage seen on Orion, NASA would insist on a redesign and an unmanned test flight to validate it.
Did they demand an unmanned flight just to prove it worked? Or did they accept an entirely new design based on modeling and ground tests and then immediately flew it with crew on board?
Then again I'm not one of those people who roots for NASA to fail for some reason.
They had a heat shield on the capsule that failed testing, so they swapped out the interchangeable heat shield for one that passed testing.
There was no entirely new design, there was no new material science, it was the same heat shield that the previous crewed capsules have used without the manufacturing defect.
> SpaceX's next Crew Dragon mission (Crew-5) will fly with a different, updated heat shield structure after a new composite substrate failed acceptance testing
I don't know what "new" or "different" or "updated" or "structure" mean then anymore.
As someone who is actually (still) a fan of basic research, Artemis looks like a fun time for the 1% with a $100 billion dollar price tag, except that since it's only 4 astronauts and support staff, it's less than 1%. I opposed messing with NASA funding for a long time, but arguments referencing spin-off tech and so on wear thin. Spin-off occurring lately would/could only be captured by existing billionaires anyway, and without much benefit for society in general.
Humans in space are currently still a waste of time/money, largely just a big surrender to PR, space-selfies, the attention economy, and the general emphasis on "seem not be" you see elsewhere. Please just send robots, build a base, and let us know when we can put more than ~10 freaking people up there at one time. If that fails, then at least we'll have results in robotics research that can be applicable elsewhere on Earth right now as well as help us achieve the more grand ambitions later.
House is on fire, has been for a while, fuck business as usual. I honestly think all those smart people ought to be charged with things like using their operations research to improve government generally, or with larger-scale high tech job programs. If you don't want to let NASA big-brains try to fix healthcare, we could at least let them fix the DMV. Hell, let them keep their spin-offs too, so they actually want success, and have some part of their budget that won't disappear. Basic research and fundamental science is (still) something we need, but we need to be far more strategic about it.
Food for thought: The way things are going, we can definitely look forward to a NASA that's completely transformed into an informal, but publicly funded, research/telemetry arm for billionaire asteroid-mining operations, and thus more of the "public risk, private-profits" thing while we pad margins for people who are doing fine without the help. OTOH, if NASA is running asteroid mining businesses at huge profits, then they can do whatever they want with squishy volunteers as a sideshow, and maybe we'll have enough cash left over to fund basic income.
NASA's budget is 0.35% of the Federal Budget. The US Government spends the equivalent of 20 years of moon mission spending on ICE. They're spending 2x that on Iran war. They blew $200 billion in PPP Loan fraud in 2020 alone.
I'm tired of nickle and diming science funding. You had scientists like Sabine Hossenfelder cheerleading NSF cuts cause of "waste" on string theory and particle accelerators. NSF is 0.1% of the federal budget, and it has funded a remarkable number of world changing inventions over the last 40 years.
We don't spent JACK on space. Look at the huge returns from the Hubble and James Webb. Why aren't we building HUGE HUGE space telescopes as immediate followups? We should have 50 James Webb equivalents. NASA once had plans for a "Terrestial Planet Mapper", a bunch of giant space telescopes flying in formation that combine their signals for truly incredible resolution, good enough to image planets around distant solar systems to a few pixels.
We've now seen plenty of planets in the habitable zone with nearby signatures of biological precursor molecules. We've found asteroids with sugars and amino acids in them. Give NASA 10x the budget and end these damn wars. The Pentagon failed 7 audits and can't account for $2 TRILLION and we're talking about humans in space a waste? It's a drop in the bucket, and it provides a beacon for humanity to dream.
The Apollo projects created a whole generation of people who wanted to go into STEM, that's the biggest ROI.
NASA, the NSF, the NIH, et al, are not the problem. Their spending is insignificant, NASA+NSF is < 1% of the budget.
It might not seem like it, but I really am on your team. What you're missing and Sabine understands is that there is no such thing as spending that's insignificant, and whether we're talking cash or mission bandwidth, everything has opportunity costs. Exactly how many possible missions are thrown out every time we decide to send squishy humans instead of robots?
As for defense spending, to be clear I'm all for swapping the pentagon/nasa budgets, but afterwards I'd still call bullshit if I think there's gross mismanagement at NASA. Pandering to the public with space-selfies is mismanagement, even if it's brought on by desperation and shrinking budgets. I think there's a strong argument Webb was also is bad strategy / mismanagement, but it's too long to get into here.
Unfortunately, like everyone else, NASA, NSF et al do need to worry about public trust, ROI, and the dreaded question: What have you done for me lately? There's this idea that basic research must be incompatible with that sort of thing, but I disagree.
Sabine got her wish. DOGE cut NSF by 40%. Tons of scientists out of work including physicists. But she'll be ok, she only needs to pimp another ad for Brilliant.com
Not only that, for truly long term perspective its about mankind survival. Even that POS musk realizes that (at least he did, not sure where his psychosis got him now and don't care much TBH).
If we stay around just Earth, we will be eventually wiped out. Maybe not in next million years (or maybe yes), but but given enough time one of many ways that would happen will happen, from the sky or from processes happening purely down here, manmade or not.
Its not rocket science, its not some magical theoretical what-if, just hard facts when digging around a bit and looking at history. Anybody who has power to change things and decides not to should be treated accordingly.
Even if mankind is lucky with everything else, in 500-800 million years the sun's increased luminosity will render Earth uninhabitable for higher life forms (as we know them) [0].
Great read and interesting article. Hard to believe that NASA would risk astronauts lives simply to save face, but that appears to be what's going to happen.
Riskier? Didn't they all die. Maybe if you ended up with 2 stranded shuttle crews, but correct me if I'm wrong, and I probably am, but couldn't the shuttle fly without any crew?
It couldn't, for a funny reason. Everything on a Shuttle flight could be automated except lowering the landing gear just before touchdown, which had to be done by hand from inside the cockpit.
There are rumors (that I've never been able to run down) that the astronaut corps insisted on this so the Shuttle could not be flown unmanned.
And Buran(soviet copy of the shuttle) could and in fact did fly completely unmanned. In a way it's a shame the collapse of the soviet union killed that program, because a crew less shuttle would have been a huge asset to have.
You can do a less risky thing and die or do a more risky thing and live. What happened doesn’t determine which thing is riskier just like I can call a 1 and roll dice and land it and you can call tails and flip a coin and not get it.
The outcome doesn’t determine the risk. I agree that this kind of office politics / face savings definitely is the cause of these two things.
I'm sure I watched a documentary that said it basically wasn't feasible to launch the other shuttle. All checks and preparations would have to be done in absolute record time, with no mistakes and under timelines never attempted before. But even if they tried, you have the obvious question of - we know the core issue isn't solved and we're about to launch the second shuttle with the exact same design into orbit, if it suffers the same problem then what? But afaik the second one while important wasn't as much of a blocker as the first one. It just wasn't possible in time - it's not like the first shuttle could stay in orbit indefinitely too.
You seem to be ignoring the "just to save face" part. I'd argue it would be a worse thing for our bar for how safe it should be to be raised significantly from when we had been in space as a species less than a decade to now that it's been 65 years.
Saturn 5 had a flawless record. The leftover space shuttle parts which SLS is cobbled together from, not so much. SRBs are inherently dangerous, theyre designed to quickly launch nukes from silos, not people. And Orion is just a typical modern Boeing project. So far its fallen at every hurdle right?
Saturn 5 came close to catastrophic failure at least once. It had partial failures. Its sort of perfect record is mostly down to luck and not launching very many times.
Of course, six decades later, we should be able to do a lot better.
Yeah, I thought it was Starliner on top. I dont know anything about Orion then.
SLS is very crappy and disappointing, its using shitty old space shuttle tech, + its ridiculously expensive in terms of payload to orbit, but it will probably work.
I didnt know, cus I just dont give a shit about this stupid project.
They’ve killed dozens during the shuttle program , or did you forget ? Also a number during Gemini, Mercury and Appollo. Terrible safety record , and 5x worse than Soyuz . Shuttle fatality rate was 1/10. Approaching Russian roulette odds
In total, a little over one dozen astronauts died on shuttle flights (14). No astronauts died during Gemini or Mercury. Three died in a test on Apollo 1. The shuttle failure rate was nowhere close to 1/10. In fact, it was 1/67 (2 failures out of 134 flights).
This is actually what is thought to partially have caused the damage seen previously. The new trajectory is supposed to just have a single heating pulse instead of two.
Aerobraking causes heat cycles. Expanding and contracting a material that already has "not large, large chunks missing" doesn't seem very prudent. Even before the evidence of deterioration, I'm not sure the safety culture at NASA would reach for that any time soon when a single high-temp event would work.
> Moon-to-Mars Deputy Administrator Amit Kshatriya said: “it was very small localized areas. Interestingly, it would be much easier for us to analyze if we had larger chunks and it was more defined”. A Lockheed Martin representative on the same call added that "there was a healthy margin remaining of that virgin Avcoat. So it wasn’t like there were large, large chunks.”
Followed by:
> The Avcoat material is not designed to come out in chunks. It is supposed to char and flake off smoothly, maintaining the overall contours of the heat shield.
This is echoes both Shuttle incidents. Challenger: no gasses were supposed to make it past the o-rings no matter what, but when it became clear that gasses were escaping and the o-rings were being damaged, there was a push to suggest that it's an acceptable level.
There was a similar situation with heat shield damage and Columbia.
In both cases some models were used to justify the decision, with wild extrapolations and fundamentally, a design that wasn't expected to fail in that mode /at all/.
I know the points that astronauts make about the importance of manned space exploration, but I agree with this author that it seems to make sense to run this as an unmanned mission, and probably test the new heat shield which will replace the Artemis II design in an unmanned re-entry as well.
> but when it became clear that gasses were escaping and the o-rings were being
> damaged, there was a push to suggest that it's an acceptable level.
Interestingly, the article<https://docs.google.com/document/d/1ddi792xdfNXcBwF8qpDUxmZz...> by heat shield expert and Shuttle astronaut Charles Camarda, the former Director of Engineering at Johnson Space Center, asserts that it was *not* the O-rings:
"The Challenger accident was not caused by O-rings or temperature on the day of launch; it was caused by a deviant joint design which opened instead of closed when loaded. It was caused by mistaking analytical adequacy of a simplified test for physical understanding of the system. The solution, post Challenger, was the structural redesign of the SRB field joint and the use of the exact same O-rings."
I find that highly surprising, because "it was the O-rings" explanation seems universally believed and sanctified by no lesser authority than the Nobel prize laureate Richard Feynman.
Also I'm not sure the assertion is correct. If the sealant and O-Rings were adequate, the joint would not have failed. It was suboptimal, and increased risk, sure, but it in itself wasn't the reason for the accident. It was the joint and the o-rings in combination. The holes in the swiss cheese model lined up that day, and a lot of small problems combined into one big problem
That assertion requires some reasoning and evidence to back it.
No. The whole assembly --joint, sealant and O-rings, -- failed.
"They were not adequate" - yet, after the redesign, they kept those same O-rings and declared that boosters are safe to fly, in manifest contradiction to your assertion. So your reasoning is clearly flawed.
I don't know how a big organisation can think like that. But I guess these calculations were ones out of millions of ones made for the project.
https://en.wikipedia.org/wiki/Normalization_of_deviance
At this point in time, manned space exploration should come out of our entertainment budget. The same budget we use for football or olympic games.
I can't agree more.
Another thing I believe needs to be watched periodically is Pale Blue Dot [2].
[0]: https://www.youtube.com/watch?v=w-COlil4tos
[1]: https://www.youtube.com/watch?v=jtsZaDbxCgM
[2]: https://www.youtube.com/watch?v=wupToqz1e2g
You could have the same effect with LSD/Psilocybin for quite a bit less $$$$.
Look at what happened with William Shatner and Jeff Bezos when they came back from space. Shatner started to say something about what an impactful experience it was, but Bezos cut him off and was like “Woo! Partay!” and switched his attention to a magnum of champagne.
Perhaps, but they should also get a few free orbits of the Earth *after* their term ends, on a launch system built by whichever contractor has given the most "campaign donations" to politicians. Surely they'll trust it to be safe, right?
Give them the rest and recreation they need in these wonderful places.
Yeah, you may be right.
Trying and seeing what happens is also science, after all.
"I've seen things up there that are huge, absolutely huge. And let me tell you, astronauts, they came up to me, they were crying, big men crying. Earth, it's a good name, but it's not big enough, not grand enough. So, I'm thinking we rename it. How about 'The Trump Sphere'? It's got a nice ring to it, doesn't it? And let me tell you, nobody would argue with that name!"
I also looked up the NSF's 2024 budget, which, at $9B, was much lower than I expected.
Look at this joke of a list https://www.nasa.gov/missions/station/20-breakthroughs-from-... for an illustration. And those were the 20 best things they could come up with.
About war: in our universe we got the first digital computers because of military efforts during the second world war. However, without a war IBM and Konrad Zuse and others would have gotten there, too. With much less human suffering.
Most US investment in associated tech - including the Internet - came through DARPA.
Not pointing this out because I support war, but to underline that the US doesn't have a culture of aggressive government investment in non-military R&D.
NASA and the NSF both get pocket money in budget terms. And at its height Apollo was a Cold War PR battle with the USSR that happened to funnel a lot of of money to defence contractors.
The original moon landings were not primarily motivated by science.
(And, if you don't like the monetary framing: just look at the real resources spend instead.)
However I'm not nearly as harsh on unmanned space exploration.
It is astounding to me how such a successful, rich group of companies manage to get subsidies in quantities that groups you'd think deserve or need it more, from valuable science endeavours to orphans dying of cancer, can only dream of.
Do Fijian rugby games see a 0.5% increase in longest drop goal distance?
On a slightly related note, I always found the games played in Pretoria in South Africa fascinating. It's 1350 m above sea level, so kicks all go 10% to 15% further (my estimate) which makes quite a difference when there are players kicking penalties from over halfway even at sea level.
Though the US could just do it. Who's to stop them from selling these pieces of paper?
Landing on the moon in 1969 was an extraordinary achievement, perhaps the most beautiful thing ever done by mankind. But now? What's the point exactly?
We know we can't go much further than the moon anyway (as this very same blog has demonstrated many times); what do we expect to achieve with astronauts that robots can't do?
https://arstechnica.com/space/2026/01/nasa-chief-reviews-ori...
Camarda is an outlier. The engineers at NASA believe it is safe. The astronauts believe it is safe. Former astronaut Danny Olivas was initially skeptical of the heat shield but came around.
And note that the OP believes it is likely (maybe very likely) that the heat shield will work fine. It's hard for me to reconcile "It is likely that Artemis II will land safely" with "Artemis II is Not Safe to Fly", unless maybe getting clicks is involved.
Regardless, this is not a Challenger or Columbia situation. In both Challenger and Columbia, nobody bothered to analyze the problem because they didn't think there was a problem. That's the difference, in my opinion. NASA is taking this seriously and has analyzed the problem deeply.
They are not YOLO'ing this mission, and it's somewhat insulting that people think they are.
The foam shedding/impact problem was heavily analyzed throughout the Shuttle program, and recognized as a significant risk. Read the CAIB report for a good history.
That report also describes the groupthink dynamic at NASA that made skeptical engineers "come around" for the good of the program in the past. Calling Camarda an outlier is just a different way of stating this problem.
The NASA engineers wanted to understand what would happen if large chunks of the heat shield were stripped away entirely from the composite base of Orion. So they subjected this base material to high energies for periods of 10 seconds up to 10 minutes, which is longer than the period of heating Artemis II will experience during reentry.
What they found is that, in the event of such a failure, the structure of Orion would remain solid, the crew would be safe within, and the vehicle could still land in a water-tight manner in the Pacific Ocean.
You're getting clicks, they're going to the moon and there's a lot of people on Earth who would happily take any tradeoff for that.
That's not reassuring, though. And it isn't just about them.
False on both counts. Both the SRB joint design issue and the foam shedding were known, researched and dismissed very early in the shuttle program. They suspected it after STS-1 and confirmed it within a few flights.
Being pedantic, NASA management "ignored" engineers - because money.
That said, I 100% agree with you assuming:
> “We have full confidence in the Orion spacecraft and its heat shield, grounded in rigorous analysis and the work of exceptional engineers who followed the data throughout the process,” Isaacman said Thursday.
I only say assuming not that I don't believe Isaacman, but historically NASA managers have said publicly everything's fine when it wasn't and tried to throw the blame onto engineers.
With Challenger, engineers said no-go.
With Columbia, engineers had to explicitly state/sign "this is unsafe", which pushes the incentivisation the wrong direction.
So, I want to believe him, but historically it hasn't been so great to do so.
I think the problem with both Challenger and Columbia was that there were so many possible problems (turbine blade cracks, tiles falling off, etc.) that managers and even engineers got used to off-nominal conditions. This is the "normalization of deviance" that Diane Vaughan talked about.
Is that what's going on with the Orion heat shield? I don't think so. I think NASA engineers are well aware of the risks and have done the math to convince themselves that this is safe.
It's related to funding. I mean it's always money, right?
But in Challenger's case, there was very heavy pressure to launch because of delays and the rising costs. I remember in a documentary they explicitly mentioned there was a backlog of missions and STS-51 had been delayed multiple times. To rollout/fuel, costs a LOT and challenger had been out on the pad for a while. Rollback was a material risk+cost.
For columbia, yea less about money. They ignored the requests to repoint spy sats and normalized foam strikes.
> I think NASA engineers are well aware of the risks and have done the math to convince themselves that this is safe.
And that's the way it should be. Everything has a risk value regardless if we calculate it or not. It's never 0... (maybe accidentally going faster than light is though?) We just need to agree what it is and is acceptable.
Story time - I was a young engineer at National Instruments and I remember sitting in on a meeting where they were discussing sig figs for their new high precision DMMs. Can we guarantee 6... 7 digits? 7? and they argued that back and forth. No decisions but it really stuck with me. When you're doing bleeding edge work the lines tend to get blurry.
This sounds more like there is money in the room than it’s about the money. None of the decision makers personally profited from saying go. It was much more of a prestige thing.
> What they found is that, in the event of such a failure, the structure of Orion would remain solid, the crew would be safe within, and the vehicle could still land in a water-tight manner in the Pacific Ocean.
Indeed, this is a much more balanced take. And it turns out that the OP armchair expert is assuming NASA doesn't know what they are doing or is negligent.
https://docs.google.com/document/d/1ddi792xdfNXcBwF8qpDUxmZz...
NASA is an institution and the incentives align with launching despite risk in cases where the risk was completely unanticipated. The project has its own momentum that it has gathered over time as it rolls down collecting opportunity costs and people tie themselves to it. If you think an astronaut would pull out of a launch because of a 5% risk of catastrophe... well you are talking about a group of people which originated from test pilot programs post-WWII where chances of blowing up with the gear was much much higher, so even though modern astronauts don't have the same direct experience, it isn't beyond reason to assume they inherent at least a bit of that bravado.
The first Shuttle launch probably had a 1 in 4 chance of killing its crew. It was the first launch of an extremely complicated system and they sent it with a crew of two. Can you imagine NASA doing that today?
In a news conference last week, a NASA program manager estimated the Loss of Mission chance for Artemis II at between 1 in 2 and 1 in 50. They said, historically, a new rocket has a 1 in 2 chance of failure, but they learned much from Artemis I, so it's probably better than that. [Of course, that's Loss of Mission instead of Loss of Crew.]
My guess is NASA and the astronauts are comfortable with a 1 in 100 chance of Loss of Crew.
That's not how risk analysis works.
Let's say every Apollo mission had gone flawlessly, and no one even came close to dying. Would you then say that the risk of death for future missions would be zero? No, of course not.
NASA computed the chance of “landing a man on the Moon and returning him safely to Earth” as less than 1 in 20. I would think a lot more than 1 in 20 of those failures would result in killing crew members.
https://ntrs.nasa.gov/api/citations/20190002249/downloads/20...:
“Appreciating and deemphasizing risk in Apollo
Joseph Shea, the Apollo program manager, chaired the initial Apollo systems architecting team. The “calculation was made by its architecting team, assuming all elements from propulsion to rendezvous and life support were done as well or better than ever before, that 30 astronauts would be lost before 3 were returned safely to the Earth. Even to do that well, launch vehicle failure rates would have to be half those ever achieved and with untried propulsion systems.”
The high risk of the moon landing was understood by the astronauts. Apollo 11's Command Module pilot Mike Collins described it as a “fragile daisy chain of events.” Collins and Neil Armstrong, the first man to step on the moon, rated their chances of survival at 50-50.
The awareness of risk let to intense focus on reducing risk. “The only possible explanation for the astonishing success – no losses in space and on time – was that every participant at every level in every area far exceeded the norm of human capabilities.”
However, this appreciation of the risk was not considered appropriate for the public. During Apollo, NASA conducted a full Probabilistic Risk Assessment (PRA) to assess the likelihood of success in “landing a man on the Moon and returning him safely to Earth.” The PRA indicated the chance of success was “less than 5 percent.” The NASA Administrator felt that if the results were made public, “the numbers could do irreparable harm.” The PRA effort was cancelled and NASA stayed away from numerical risk assessment as a result.
[edit]
For comparison, commercial aviation has something like 1 in 5.8m or 6x 9's of reliability.
The "likely" in "likely ...to land safely" and "likely to work fine" is not nearly good enough.
The design change by LM, not commentedkn by Textron is like. a beehive with no honeycomb-a crystallized block of honey.
i'll take the structural support of honeycomb any day.
It's a normalization of deviance. That is what Charlie is bringing voice to. Many of us fear reprisals and even when talking to heads of, like with Columbia, we are ignored.
So, Charlie is a voice of many people, not an outlier.
And the idea that 'if we throw this much money at it, it really must be fine' I don't buy either. Look at how that worked out for Boeing.
For all my feelings about Musk I would much rather step into a rocket that has exploded in all kinds of imaginable situations before so they know how the materials and design actually behave in real world scenarios. I do really think that is the way to go.
This take completely ignores Camarda's observations that there is a culture of fear spreading at NASA which punishes whistleblowers. I'm not saying he's 100% correct, but how can you claim such a take is truly balanced if there's a possibility one of the parties is engaging in a cover-up?
The engineers at NASA & astronauts aboard Columbia & Challenger also believed the programs were safe.
it doesn't matter.
https://en.wikipedia.org/wiki/Artemis_II
"It will be the second flight of the Space Launch System (SLS), the first crewed mission of the Orion spacecraft, and the first crewed mission beyond low Earth orbit since Apollo 17 in 1972."
such "second/first" were ok 60 years ago. Today the only reason for that is that the SLS isn't reusable while the cost is hyper-astronomical.
Today's tech complexity, engineering culture and overall managerial processes don't allow the first/second to succeed as a rule. Even the best - Space X - has got several failed launches back then for Falcon and now for Starship.
Of course we wish success, and it will probably succeed - just like the Russian roulette so aptly mentioned in the sibling comment.
Look up the term "expected value". If pressing a button has a 10% chance of destroying Earth, it is both 1) likely that pressing it will do nothing AND 2) the case that pressing it is extremely unsafe.
As he shows that Olivas changed his mind:
“ Olivas told me he had changed his mind, expressing appreciation and admiration for the in-depth engineering work done by the NASA team. He would now fly on Orion”
Anyway we live in an age of armchair experts in youtube (who are often very smart but quick to rush to judgment without enough context)
The article explains the situation in a more balanced and fair light
1. The application method is different. Apollo applied it to a metal honeycomb structure with very small cells, while Orion uses blocks of the material. (NASA tried the honeycomb approach for Orion, but it was too labor-intensive).
2. Orion is much bigger and heavier than the Apollo command module. The informal consensus is that Apollo may have been at the upper size limit for using Avcoat.
So cost cutting, as always.
The contractor has no trouble inflating the first one whenever they can, but they want to strip the second one to the bone to maximize profits.
> The paste-like material was gunned into each of the 330,000 cells of the fiberglass honeycomb individually, a process taking about six months. [1]
[1] https://en.wikipedia.org/wiki/AVCOAT#Apollo_Command_Module
SLS already costs about as much as a nuclear submarine. Per launch.
Still a very high number, but nowhere near the military-budget-levels you're talking about.
Just out of curiosity, do we know if the honeycomb method worked before it was deemed too labor intensive? Because I'm told that using this block method results in chunks blowing out.
I'm also having a problem with this set-up: Apollo is at the upper size limit for avcoat; Orion is way bigger; use avcoat.
Reading a real front-fell-off aura from this project. It makes me wonder if spending 6% of GDP to develop and run a crewed lunar program 60 years ago and then immediately destroying the evidence, r&d artifacts, and materials fab capabilities was a good idea.
Is there truly no engineering or science merit to flying astronauts by the Moon?
This is a strange claim, considering NASA used to have 2 facilities that were capable of this - one at Johnson and one at Ames. They were consolidated (https://ntrs.nasa.gov/api/citations/20160001258/downloads/20...) but it seems like the Arc Jet Complex at Ames is still operational https://www.nasa.gov/ames/arcjet-complex/
Also, they don't have anything human rated going beyond LEO. Coming back from the moon means you're going significantly faster and thus need a better heat shield
> That context is a moon program that has spent close to $100 billion and 25 years with nothing to show for itself, at an agency that has just experienced mass firings and been through a near-death experience with its science budget
And there are options now.
>> Artemis II could fly just as easily without astronauts on board
Ergo the mission design is wrong, not the heat shield design.
I changed projects bc it was obvious to that the risk was substantial, long befor Artemis was called Artemis, people said this.
if author is reading this, you should fix this maybe.
Fun wording. This isn't news, concerns have been raised about Artemis II saftey in the past 3+ years since Artemis I and before then as well.
Anyone know if there's a detailed response from NASA to the article?
The only thing the author of this blog piece has to offer that’s new is his very strong personal intuition that the new design hasn’t been properly validated, without any engineering explanation about why the testing the performed won’t adequately simulate real world performance.
"countdown clock started ticking down" "to a targeted launch time of 6:24 p.m. on Wednesday, April 1."
> NASA’s initial instinct was to cover up the problem.
to at least warrant a link.
I didn’t even have a strong interest in space before the dude started writing about it. Maciej could write about literal rocks and make it worthwhile to read.
For me, so long as the information is transparently discussed with the astronauts they can agree or disagree. But the task is intrinsically extremely risky.
It makes it very challenging for anyone to really know how to balance those risks.
The peak outcome (modal, mean at least) is a good outcome. But the tail is very very long with all the little ways a catastrophe can occur. I think the median outcome is also deeply in the "good" category.
And we sample this curve a few times a decade!
It doesn’t make any sense to spend that much money on something that’s still Russian roulette for the astronauts.
If the purpose of the human risk is to let the agency accomplish more, then it needs to be reflected in the cost as a drastic reduction (so you can actually spend the money on doing more). Now Artemis is the worst of both worlds.
Let the astronauts give informed consent. If they mission is to dangerous for NASA then we can only hope, ISRO, CNSA or ROSCOSMOS will go.
https://docs.google.com/document/d/1ddi792xdfNXcBwF8qpDUxmZz...
Is Orion’s heat shield really safe? New NASA chief conducts final review on eve of flight. https://arstechnica.com/space/2026/01/nasa-chief-reviews-ori...
It reminds me of both the movies Capricorn 1 and Iron Sky ... and not in any good way.
I had forgotten that O.J Simpson had been in the movie, to be honest.
Neither of these are major risks compared to never being what you want to be.
I want you to repeat those words as you melt away re-entering the atmosphere.
The Shuttle deaths no problem.
I’m not a rocket scientist, but then neither is the author.
This is the most frustrating part. The Pentagon can fail the same audit multiple times and be missing trillions of taxpayer dollars but NASA has to move heaven and earth to show their relatively paltry $100B budget isn't going to waste. I'm tired of the double standards.
Are you sure about that?
https://spaceflightnow.com/2022/05/24/spacex-swapping-heat-s...
Then again I'm not one of those people who roots for NASA to fail for some reason.
They had a heat shield on the capsule that failed testing, so they swapped out the interchangeable heat shield for one that passed testing.
There was no entirely new design, there was no new material science, it was the same heat shield that the previous crewed capsules have used without the manufacturing defect.
I don't know what "new" or "different" or "updated" or "structure" mean then anymore.
Humans in space are currently still a waste of time/money, largely just a big surrender to PR, space-selfies, the attention economy, and the general emphasis on "seem not be" you see elsewhere. Please just send robots, build a base, and let us know when we can put more than ~10 freaking people up there at one time. If that fails, then at least we'll have results in robotics research that can be applicable elsewhere on Earth right now as well as help us achieve the more grand ambitions later.
House is on fire, has been for a while, fuck business as usual. I honestly think all those smart people ought to be charged with things like using their operations research to improve government generally, or with larger-scale high tech job programs. If you don't want to let NASA big-brains try to fix healthcare, we could at least let them fix the DMV. Hell, let them keep their spin-offs too, so they actually want success, and have some part of their budget that won't disappear. Basic research and fundamental science is (still) something we need, but we need to be far more strategic about it.
Food for thought: The way things are going, we can definitely look forward to a NASA that's completely transformed into an informal, but publicly funded, research/telemetry arm for billionaire asteroid-mining operations, and thus more of the "public risk, private-profits" thing while we pad margins for people who are doing fine without the help. OTOH, if NASA is running asteroid mining businesses at huge profits, then they can do whatever they want with squishy volunteers as a sideshow, and maybe we'll have enough cash left over to fund basic income.
I'm tired of nickle and diming science funding. You had scientists like Sabine Hossenfelder cheerleading NSF cuts cause of "waste" on string theory and particle accelerators. NSF is 0.1% of the federal budget, and it has funded a remarkable number of world changing inventions over the last 40 years.
We don't spent JACK on space. Look at the huge returns from the Hubble and James Webb. Why aren't we building HUGE HUGE space telescopes as immediate followups? We should have 50 James Webb equivalents. NASA once had plans for a "Terrestial Planet Mapper", a bunch of giant space telescopes flying in formation that combine their signals for truly incredible resolution, good enough to image planets around distant solar systems to a few pixels.
We've now seen plenty of planets in the habitable zone with nearby signatures of biological precursor molecules. We've found asteroids with sugars and amino acids in them. Give NASA 10x the budget and end these damn wars. The Pentagon failed 7 audits and can't account for $2 TRILLION and we're talking about humans in space a waste? It's a drop in the bucket, and it provides a beacon for humanity to dream.
The Apollo projects created a whole generation of people who wanted to go into STEM, that's the biggest ROI.
NASA, the NSF, the NIH, et al, are not the problem. Their spending is insignificant, NASA+NSF is < 1% of the budget.
As for defense spending, to be clear I'm all for swapping the pentagon/nasa budgets, but afterwards I'd still call bullshit if I think there's gross mismanagement at NASA. Pandering to the public with space-selfies is mismanagement, even if it's brought on by desperation and shrinking budgets. I think there's a strong argument Webb was also is bad strategy / mismanagement, but it's too long to get into here.
Unfortunately, like everyone else, NASA, NSF et al do need to worry about public trust, ROI, and the dreaded question: What have you done for me lately? There's this idea that basic research must be incompatible with that sort of thing, but I disagree.
Not only that, for truly long term perspective its about mankind survival. Even that POS musk realizes that (at least he did, not sure where his psychosis got him now and don't care much TBH).
If we stay around just Earth, we will be eventually wiped out. Maybe not in next million years (or maybe yes), but but given enough time one of many ways that would happen will happen, from the sky or from processes happening purely down here, manmade or not.
Its not rocket science, its not some magical theoretical what-if, just hard facts when digging around a bit and looking at history. Anybody who has power to change things and decides not to should be treated accordingly.
[0]: https://en.wikipedia.org/wiki/Timeline_of_the_far_future
There are rumors (that I've never been able to run down) that the astronaut corps insisted on this so the Shuttle could not be flown unmanned.
The outcome doesn’t determine the risk. I agree that this kind of office politics / face savings definitely is the cause of these two things.
Of course, six decades later, we should be able to do a lot better.
I didnt know, cus I just dont give a shit about this stupid project.
Columbia and Challenger crew totaled 14, who else are you referring to?