Curiosity is a teenager now? Damn, I didn't need to feel this much older today..
NooneAtAll3•Jun 10, 2026
bepicolombo arrives on Mercury this autumn too
ragebol•Jun 11, 2026
If a few years it'll be old enough to drive a car. That'll help exploration!
rented_mule•Jun 10, 2026
The total cost of Curiosity to date is well under 5% of the cost of the recent trip humans took around the moon (something like $3B vs. $90B, or $20 vs. $600 per US taxpayer). Imagine the amount of science that could get done if we gave even half the budget of crewed spaceflight to rover / probe style exploration.
zbendefy•Jun 10, 2026
Maybe we would get a microphone on mars.
Just kidding i know air pressure is vastly different, but still it would be cool to listen to ambient sound from there
boxfire•Jun 10, 2026
Mars 2020 has a microphone. You can probably find audio out there but here’s some:
> Curiosity [...] has traveled nearly 37 kilometers, drilled into and sampled 42 different rocks, and as of publication has snapped nearly 763,000 photos.
Without in any way minimising the amazing scientific and engineering achievements of the team and the rover: we need crewed space exploration because people on Mars would be able to do the above in significantly less than thirteen years. Or, to put it another way, would do much more science in the same amount of time.
Thrymr•Jun 10, 2026
> much more science in the same amount of time.
I'm not convinced by the time argument, as astronauts would have limited time on Mars dictated by orbital mechanics and return schedules, but the bigger problem is cost. You are replying to a comment about how rovers and probes are cost effective; there is no way that crewed exploration could accomplish more science than Mars rovers without orders of magnitude more cost.
rented_mule•Jun 10, 2026
And if we're keeping costs proportional, send orders of magnitude more rovers and that helps the time argument for rovers as well.
tkcashman•Jun 10, 2026
A manned mission to Mars isn't even on the table yet (sorry, Elon) until we solve several huge problems, including cosmic radiation, landing heavy payloads, and a feasible alternative to chemical propulsion (most likely nuclear, but untested).
peterburkimsher•Jun 10, 2026
Not to mention supplying astronauts with food and managing their waste for 6+ months.
ozim•Jun 10, 2026
Manned mission to Mars is a fad.
But it is important fad just like space mining.
We as humanity have to believe we are not in zero sum game to stay decent…
Unfortunately last years are showing us how ugly it is with rare earth elements, energy etc. It is also showing what you wrote is true. No one really believes that we can affordably space mine for rare earth and no one believes in Martian colonization that would bring tangible benefits.
cucumber3732842•Jun 11, 2026
>No one really believes that we can affordably...
People said that about everything. I wore a $10 silk tie to work today and ate toast with a $1 Avacado on it.
Marco Polo would shit a brick if he saw Interstate 90.
WalterBright•Jun 11, 2026
It wasn't that long ago that HN had a spirited discussion about how data centers in orbit could not possibly work. But it looks more and more like Musk is going to deliver.
somenameforme•Jun 11, 2026
If you held the same logic back towards the beginning of humanity then we'd all still be wandering about the woods poking each other with sticks. Most people don't believe things are possible which is probably some sort of evolutionary thing. A society full of people with their head in the clouds probably wouldn't work so great, but humanity would also stagnate without at least some people looking to the stars.
This could very well be why planned economies seem to struggle with innovation. People being able to devote significant resources to endeavors, that might not make sense to most, is how you get lots of failures, and the occasional revolutionary successes. Do everything by committee and all you get is a shinier version of what you had last year.
close04•Jun 11, 2026
With the power of hindsight many decisions look obvious. But many others look silly. For every "discovery of the Americas" there were thousands of expeditions that fizzled out in a worthless desert, middle of the ocean, dead end cave.
The argument that "progress always needed bold steps" can lead into dead ends too. Past experience isn't enough to justify future steps without additional evidence. Exploration and learning are always good reasons but if you jump to the "it's good business" step before knowing all you can reasonably know, it's probably a fad. It's shooting in the dark. It could still hit the target, or it could miss. You only really know if something is a fad or not with hindsight.
It's hard to say with certainty today whether Mars is a viable target for colonization in the long term compared to other places like Titan or even the Moon. Before you drill for oil you do a lot of exploratory activities. If those bring back solid positive results then you go for the full blown thing. Before you launch a business you build a business case. Did anyone provide a solid business case and exploratory evidence for why "going for Mars" is the viable future?
As far as I can tell it's not scientists pushing for colonizing Mars. All we have to go on is the push from a man widely known to pump up the value of his own companies (which this would do and then some) by repeatedly making sweeping promises he failed to keep.
somenameforme•Jun 11, 2026
This [1] is pretty much exactly what you're looking for. Zubrin is one amongst countless voices, of all back grounds - certainly academic included, pushing for Mars colonization. Even as far back as the 60s NASA, under Von Braun, had drawn up extensive plans for settling Mars. This was all cancelled by Nixon, in large part because he was worried that a catastrophe under NASA would look bad on his political career. If he only knew what was coming.
Musk has become demonized mostly because of his politics. He's made bold claims and overwhelmingly fulfilled them in space. For instance there was a time when something we now take for granted - autonomous landing reusable rockets - was deemed impossible by the powers that be. They were even taunted by Boeing et al along the lines of 'yeah, we tried that long ago - the economics don't work. it's cute to see you having a go at it though.'
He's also brought the price to get things to space down multiple orders of magnitude relative to the Space Shuttle. And similarly before him, electric vehicles were glorified go-karts for virtue signaling hipsters. Having any public political opinion in a country as divided as America is going to make a whole lot of people hate you, but I think the efforts to try to marginalize what he's done are a mixture of silliness and ignorance. If he died tomorrow he'd already go down as the Edison of this generation, and there's yet many a decade remaining for him to cement what may be the ultimate legacy of the first man to make humanity truly multiplanetary.
> This [1] is pretty much exactly what you're looking for. Zubrin is one amongst countless voices, of all back grounds - certainly academic included, pushing for Mars colonization.
What about the countless voices, academic included, against it? It's not whether someone thinks it's a good idea but if we have a reasonable consensus on it. 50/50 is a coin flip, not a "peer reviewed" conclusion. It took the blink of an eye to realize putting things in orbit is greatly beneficial. We've been looking at Mars from all sides for decades and the business case is yet to be clear except mostly for people making money by selling you the idea, or the book.
> Musk has become demonized mostly because of his politics. ... He's also brought the price to get things to space down multiple orders of magnitude relative to the Space Shuttle. And similarly before him, electric vehicles were glorified go-karts for virtue signaling hipsters.
Let's not make this the core of the discussion, my objection to him isn't ideological. The companies he has led have a history of fraud, misinformation, and lies. Tesla is the poster child of this. If I can pick just the most obvious examples, FSD has been promised just around the corner for close to a decade now and the recent retroactive change of the contracts really drives the fraud home. Solar Roof was a sham from the start. Boring Company, sham. See how I'm not listing just a "normal" business failure, like xAI failing as a frontier AI lab. Not everything is destined to be a success. I'm just mentioning the things that were overtly lies told for money. SpaceX is probably successful because by all accounts Musk left the leading of the company to the CEO. His history of lies to enrich himself legitimize the attitude to start with the baseline that any wild claim that could enrich him is a lie and wait to be proven otherwise.
For a hammer everything looks like a nail, so for Musk everything is in space. As it happens, he's one of the few parties in the world with easy access to that resource, and acts as a gateway for almost everyone else.
I'm not losing or making money on his success so this for me is just a matter of common sense. If someone lies as often as he does, it's "shame on me" to still assume truth until proven lie.
somenameforme•Jun 11, 2026
Well then you loop back to where we began. You implied nobody had made the 'business case' for Mars, as in something tangible. That's been done repeatedly, to quite a high standard. Now you're back to claiming well what about some sort of consensus, but again do everything by committee and all you get is a shinier version of what you had last year. It's easy to critique things, even things that are completely and absolutely sound - before people know that.
For instance here [1] is the NYTimes claiming that human flight would be impossible, published just about 2 months before the Wright Bros achieved human flight. Incidentally they also said space flight would be impossible, and were actively patronizing towards the concept. They felt that any child with a basic understanding of science would understand that there's nothing to 'push back against' in space, so spaceflight simply can't work. Until that's proven wrong by actually doing it, some might actually think 'wait that's kind of reasonable - omg maybe it is impossible.'
As for Musk, you're simply assuming malice when e.g. everybody thought full self driving was just around the corner when he made his claims about Tesla bringing it to market. It's kind of the same way that today everybody thinks that in a decade LLMs will be replacing knowledge workers left and right. It's just extrapolating outward from a trendline that exists at one point in time. But it may well be that in a decade we're still predicting that in a decade LLMs will finally be there. Or maybe there will be some revolutionary change, as promised by by all the people pushing LLMs. If it fizzles out, I wouldn't jump to calling them all fraudulent hucksters.
For anything to become reality, the 1st step is be able to imagine it.
Also a big problem can be attacked by solving a small part of it, see what's left & repeat until remaining bits are easy.
Over time, what used to be 'impossible' becomes easy. What matters is deciding what to focus on for the foreseeable future, and spend resources wisely. See eg.:
Yeah a human mission to Mars, colonizing the clouds of Venus, asteroid mining or Dyson spheres may not be achievable now (if ever). But exploring the problem space, or having a good look at the required engineering, is. And may be cheap as well.
hugmynutus•Jun 11, 2026
Add to the list that martian dust contains a massive amount of carcinogens meaning any air/dust lock has to be an ISO-6 clean room.
Sure it is a "solved" problem but all the solutions are very heavy.
gosub100•Jun 11, 2026
This is the first time I've heard of that. What are some of the carcinogens? I know the radiation is bad there, but I didn't know the regolith was toxic.
baq•Jun 11, 2026
A geologist with a shovel could do 10 years of Curiosity’s science in an hour.
jahnu•Jun 10, 2026
I’m no expert of course but I get the impression that we’re trying to run before we can walk. Many more robotic missions and way more basic research done more scientifically first could quite plausibly get humans there quicker in the end. Reading A City on Mars I found myself thinking this is many orders of magnitude more complicated than Apollo and will take more time.
0cf8612b2e1e•Jun 10, 2026
Can we realistically send humans to Mars plus the return trip? I would maybe believe we can do a one way trip and leave those astronauts to die after snapping some pictures.
ridgeguy•Jun 11, 2026
I suspect there are substantial numbers of us in our 70's+ who would volunteer. Why not go out having made an amazing contribution?
adonovan•Jun 11, 2026
I'd be surprised if there's a single person alive who would volunteer for a suicide mission to a miserable cold dark planet and could travel there for nine months in a tin can through a harsh radiation/muscle atrophy/psychological environment and arrive in any condition to conduct useful scientific work.
WalterBright•Jun 11, 2026
Suppose one had a diagnosis of 1 year to live. Why not expend it doing something great?
WalterBright•Jun 11, 2026
I've been excoriated for making that suggestion.
ianferrel•Jun 10, 2026
For the cost of sending one human there for a week, we could send thousands of robots there for years.
There is no way that human space exploration is ever cost effective with robot space exploration.
gwill•Jun 10, 2026
sending a human there also contaminates the planet more, allowing us to learn less.
WalterBright•Jun 11, 2026
I will never understand that point of view. Mars is a lifeless rock.
fc417fc802•Jun 11, 2026
As far as we know. As of right now, we are reasonably confident that we haven't contaminated it. So if anything resembling biological byproducts turn up we can say with reasonable confidence that we have discovered evidence of historical life on mars. As soon as a human sets foot there that's no longer the case.
That said, personally I'm in favor of manned missions to as many bodies in the solar system as possible.
WalterBright•Jun 11, 2026
> As far as we know.
You could argue that forever. When is it time to accept that there isn't any there, and if there is, it is insignificant?
II2II•Jun 10, 2026
Manned missions would still have constraints. In some cases, they would be far greater (e.g. due to the necessity of keeping the astronauts alive). Where there are fewer constraints, it would be intertwined with the cost of sending people to Mars. They may be able to travel faster, but a lot of that is going to be because of a larger energy budget. It is doubtful they could travel further, since there are still going to be limits on how far they could travel (humans need infrastructure). That said, perhaps they could cover a larger area (within a smaller radius) than robots. Risk is also a limiting factor, and it is a far bigger one with people. Humans may be more flexible, but you aren't going to have those romantic scenes of people scaling down steep slopes or spelunking in caves. It could be done, but the chances of something going wrong will inhibit it.
While on the topic of human flexibility, it is important to understand that it will be limited due to the resources available. What we saw on Apollo 13 wasn't the product of people trying to expand beyond the mission objectives with what is on hand, it was a last ditch effort to save the Apollo crew. They could afford to do unintended things with the equipment on hand since the only other option was to admit defeat then let people die. Even the very much fictional The Martian was based upon that premise. Treating it as a thought experiment: the primary response was to terminate the mission and evacuate. The part about the lone survivor on Mars was about ditching every mission objective in the name of survival. It would be very difficult to even create a fictional narrative of a human team going beyond the abilities of a similarly appointed robotic mission without abandoning reality altogether.
thegrim33•Jun 10, 2026
Yes, and Curiosity weighs 899kg, whereas a single SLS launch can put 26,988kg of robots, cargo, and humans into trans-lunar orbit.
hparadiz•Jun 11, 2026
I get your point but the payload delivered to Mars was 3,893 kg. Entry/descent/landing system: aeroshell + heat shield + parachute + fueled descent stage / sky crane + Fueled Cruise Stage.
mitthrowaway2•Jun 11, 2026
That sky crane system still blows my mind. Straight out of science fiction.
It worked out. Philae lander with harpoons was comparably complex but mostly failed unfortunately.
mitthrowaway2•Jun 11, 2026
Mainly because it's a complex multi-step plan with so many potential failure points, which would already be impressive if executed on Earth but even moreso being executed on a distant planet where the conditions are different enough that it can't be fully tested in advance, and yet despite that the whole scheme worked flawlessly.
But if I had to name a specific part, I'd pick the control system. The skycrane is dangling a heavy rover from a pendulum controlled by rockets. It's unstable in every axis and has tight performance requirements to let the rover down softly and not kick up dust. Just very impressive.
drstewart•Jun 10, 2026
Suddenly HN is very pro automating human jobs with machines because it's cheaper
bezier-curve•Jun 10, 2026
The moon is probably the only celestial body humans can actually occupy with current technology, for every other object in the solar system we need robots.
downrightmike•Jun 10, 2026
Just like Hawaii, Islands require massive support and material inputs from the mainland.
The moon is like Napoleon's exile to Saint Helena island, very remote hard to get to.
Mars is like the antarctic, nearly all early explorers died and it take an international effort to stay down there.
gosub100•Jun 11, 2026
It's not glamorous but I want to see SpaceX do a 6 month antarctic mission to prove they're capable of supporting life on Mars. No assistance from any existing antarctic base, fully self contained.
fc417fc802•Jun 11, 2026
Rather than a one off mission, why isn't NASA operating a permanent base there along those lines? Locate it reasonably close to mcmurdo so they can get help in an emergency. I realize we have the ISS but there's probably still a lot to be learned about keeping a fully self contained system running in a hostile environment.
m4rtink•Jun 11, 2026
Any permanent lunar outpost (with maybe the exception of some of the coastal ones) needs to be fully self sufficient during the winter, that is nothing new.
No one is going to go rescue you tracking or flying thousands of kilometers in total darkness, snow storms and ~-80C temperatures.
ccamrobertson•Jun 10, 2026
...and further imagine the science that could be done if we mass manufactured probes rather than using experimental engineering for each one. We could have had dozens of Voyager probes in the outer reaches of our solar system by now.
I would have loved to see more Huygens probes dropped to the surface of Titan or more New Horizons zoom past Pluto.
I don't think human spaceflight is to blame, rather it's what connects taxpayers to space exploration as an inspirational human pursuit. But, I do agree that can be more efficient with how we spend those dollars all around.
WalterBright•Jun 11, 2026
The JWST space telescope cost $10b. I've been excoriated here by suggesting that a twin could be built probably for $1b.
ericd•Jun 11, 2026
Seems like we should build at least 11, if it’s 11 for the price of 2. There’s a lot of cosmos to look at.
My_Name•Jun 11, 2026
That's what they did with Hubble. Of course the CIA bought them to point downwards...
fc417fc802•Jun 11, 2026
I think it's better to take a production line approach the way musk did with spacex rockets. That would give us a recurring fixed budget, career stability, and stable pipelines for training and research. It's bound to be far more cost effective and to have more benefits for society as a whole.
There's no good reason not to have a steady stream of space telescopes and rovers being sent out at a rate of once or twice per year.
m4rtink•Jun 11, 2026
With cost of launch to space finally coming down thanks to SpaceX & reusable rockets in general I would imagine this is how things will go much more often in the future.
Not only mass production but possibly cheaper materials, more in-space prototyping & less expensive ground testing and paper studies before launch.
zitterbewegung•Jun 10, 2026
Much easier to get a moon mission due to politics .
downrightmike•Jun 10, 2026
And they scrapped the lunar gateway to piece out the ion thrusters to send to saturn for some reason
colechristensen•Jun 10, 2026
The goal is colonization and industrialization of the moon and mars and some asteroids.
There is only so much interest in the surface geology of the other bodies in the solar system.
tjchear•Jun 10, 2026
Presumably a common argument for sending a trained human expert in place of a robot is because a human can exercise much better judgment on what to explore and dive deep into on site, whereas doing so via a rover is subject to high latency and low bandwidth. It’d be really cool if LLM (or any AI for that matter) reaches the level of sophistication of an in the field scientist and we can send them instead of humans for 80% of the results at 10% of the cost.
foobarbecue•Jun 11, 2026
You'd probably be interested in Curiosity's AEGIS system if you aren't already aware of it.
WalterBright•Jun 11, 2026
Now that JPL has a design, they could crank out dozens of Curiosities and do lots of science with little more money.
cucumber3732842•Jun 11, 2026
If they actually want to do that they'd need to come up with a design more suited to serial production. Not sure how much modification that would take.
If SpaceX ever credibly gets to the point of preparing to send people to Mars I'd think that that would have to happen because how else do you vet your landing sites.
WalterBright•Jun 11, 2026
The simple fact that in order to build the first one, you have to build jigs and set up machinery and make a test plan and make test equipment, and debug it means doing a twin would likely be less than 10% of the cost of the original.
rtkwe•Jun 11, 2026
They'd need to source the plutonium for the RTGs for that and from what I've read that's in pretty precious supply. Though maybe we could start disassembling bombs to source it.
somenameforme•Jun 11, 2026
The unreasonably high price is because NASA is obligated by Congress to use Boeing and their SLS. It costs orders of magnitude greater than SpaceX for no benefit whatsoever, as a Falcon Heavy could absolutely be fitted for a lunar flyby if desired. Another problem is that rovers are way more limited than most people realize.
The fundamental problem is that moving parts break, so their design/behavior are very limited. For instance Curiosity's drill can only drill to about 6cm, and even then it broke after 16 limited activations. It then took a team of scientists around 2 years to come up with a partially effective workaround. A guy on the scene could have fixed it a few minutes, or done just as effective 'drilling' himself with a spoon. We're literally not even scratching the surface of what Mars has to offer.
Another issue is in mobility. That involves lots of moving parts. So Curiosity tends to move around at about 0.018 mph (0.03 km/h) meaning at its average speed it'd take about 2.5 days to travel a mile. But of course that's extremely risky since you really need to make sure you don't bump into a pebble or head into a low value area. So you want human feedback on a ~40 minute round trip total latency on a low bandwidth connection - while accounting for normal working hours on Earth. So in practice Curiosity has traveled a total of just a bit more than 1 mile per year. And as might be expected its tires have also broken. So it's contemporary travel time would be even worse.
Imagine trying to dig into all the secrets of Earth by traveling around at 1 mile per year, and once every few years (on average) being able to drill hopefully up to 6cm. And all of these things btw are bleeding edge relative to the past. The issue of moving parts break is just an unsolvable issue for now and for anytime in the foreseeable future.
noja•Jun 11, 2026
Isn't SpaceX cheaper because NASA exists? Get rid of NASA the price will rocket.
p_l•Jun 11, 2026
They used a lot of NASA resources to bootstrap, makes sense they later lobbied to destroy them once they could do the expensive testing on their own
HPsquared•Jun 11, 2026
Extremely constrained mass and volume budgets must cause a lot of difficulty. The drill and wheels, say, were engineered right to the limits to make them as compact and light as possible. A drill with twice the mass and size would probably be 10x as effective. Same with the wheels.
boxfire•Jun 11, 2026
It actually took only 9 months to work around, and the new method is actually quite effective. After fixing some early bugs it’s as effective as the original drill technique.
somenameforme•Jun 11, 2026
The drill started flaking out in early 2015, completely broke in December 2016, and was back online in May 2018. The new method works but is quite a lot riskier and less stable. Every activation increases the chance of a permanent failure. The same was obviously true before, but you just worsen the risk profile a bit. Of course a worse risk profile with drilling is way better than no drilling!
lisper•Jun 11, 2026
The space program is not about science. It has never been about science. Science is just the excuse, the window-dressing. What it's really about is military power and sending money to the right congressional districts. Source: I worked at JPL from 1988 to 2004.
rented_mule•Jun 11, 2026
I want you to be wrong, but I think you're right. The cost discrepancy I pointed out is evidence of that. I've heard a lot of things that are consistent with what you're saying from one of my closest friends, who happened to work at JPL and Caltech from 1992 to 2011, much of that time on Mars rover related software.
lisper•Jun 11, 2026
What was your friend's name? If they were working on robotics in that time period we probably worked together.
GuB-42•Jun 11, 2026
There is some science that can only be done with crewed missions, and that studying what happen to people in space! That's already a big part of the experiments done on the ISS.
In addition, people still can do a lot of things that robots can't do, like repairing things, or do it much faster: Apollo did more in a few days than the robotic missions did in months.
So sure, a lot of science could be done by moving crewed mission budgets to robotic missions, but that would be a different kind of science, we would learn more in some aspects and less in others.
rtkwe•Jun 11, 2026
There's a lot to be said for the flexibility of humans for performing experiments. With someone else or a country broadly sustaining people in space the cost to perform a particular experiment can go down by a lot. Trying to replace people with automated experiments will run up huge costs of designing, building and launching the robotics required to perform that individual experiment that would largely be single use. It'd also be a lot more fragile and prone to failures as well.
MinimalAction•Jun 10, 2026
I am happy to know this emblem of knowledge stream keeps coming until 2035. It is wonderful to know our innovations have flown 200 odd million miles and work for so long!
beastman82•Jun 10, 2026
Jet Propulsion Laboratory, for those who are missing basic writing standards.
xp84•Jun 10, 2026
JPL has been around for over 80 years now -- I'm not sure that assuming basic familiarity with it, among people who would care about the Curiosity rover, is even a controversial choice, let alone 'substandard' writing.
I think especially for an organization like JPL, where the name is far from a full description of what they're currently about anyway, people tend to just think of them as 'JPL' rather than how we think of, say, the United Nations.
Edit: Also, all a reader even needs to know is what the sentence already directly implies -- that "JPL" are the ones in charge of operating Curiosity. It's like saying "How AMR Corp keeps American Airlines flying during challenging times for aviation"
DharmaPolice•Jun 10, 2026
I do care about the Curiosity rover but I'll be honest that I only know JPL from The Martian.
WalterBright•Jun 11, 2026
It was named "Jet Propulsion Laboratory" for PR purposes, as they thought the local citizens would be concerned about a "Rocket Propulsion Laboratory" in their vicinity.
bruckie•Jun 10, 2026
The first line of the article starts out "Thirteen years ago last August, I was camped out in NASA’s Jet Propulsion Laboratory press room..."
hatthew•Jun 10, 2026
Anyone not familiar with "JPL" will not be helped by spelling out "Jet Propulsion Laboratory", since it's a misnomer anyways.
voidUpdate•Jun 11, 2026
National Aeronautics and Space Administration if people are still confused, I guess
squeedles•Jun 10, 2026
Was excited to hear that they have a lower power rad-hard snapdragon system going into the new missions! The RAD 750 is basically a 30-year old IBM RS-6000. Very well known, but has been the goto CPU for way longer than I thought it would be.
themafia•Jun 10, 2026
It turns out GNC is significantly easier than rendering a video game. You don't even need that fast of a control loop. Your bigger concern is legitimate real time processing over raw compute power.
Otherwise, we have shown, if you need power, send the astronaut up there with a laptop. Which is far easier to replace and upgrade as years advance.
Leveraging VxWorks you effectively have 3 different ways this software gets updated.
Hot Patch -> Do it live! where you modify the RAM with compiled code so that the changes persist until next reboot.
Cold Patch -> Same as a hot patch, except this time you actually copy the contents into non-volatile memory. VxWorks has a really slim profile and thus this helps keep the size manageable to continue doing science experiments.
Full Updated -> Basically a clean install gets burned in.
IFC_LLC•Jun 11, 2026
The argument about manned vs robotic missions is kinda like a good comparison of a capybara to an orange juice.
The guys who do those robots are real studs. 13 years on 64 megs of ram, remotely rebooting and formatting drives. One has to have a steady hand to do such operations. I can only imagine how much time, study and planning any command takes on such a mission. I'll bet they are not allowed to run a `pwd` without a full test and permission check.
Guys who do manned missions to space stations and the moon are also epic. The same amount of prediction while being human. It's quite a show of excellence in training and study. The human won't need a new mission to Mars should he find a new type of rock. Humans can solve problems the rover was not designed to solve in the first place.
So there will be manned and unmanned versions of those missions. Which one - is a tough question depending on myriads of factors that will be decided closer to the time when we are ready for said mission.
6 Comments
https://science.nasa.gov/mission/mars-2020-perseverance/soun...
Without in any way minimising the amazing scientific and engineering achievements of the team and the rover: we need crewed space exploration because people on Mars would be able to do the above in significantly less than thirteen years. Or, to put it another way, would do much more science in the same amount of time.
I'm not convinced by the time argument, as astronauts would have limited time on Mars dictated by orbital mechanics and return schedules, but the bigger problem is cost. You are replying to a comment about how rovers and probes are cost effective; there is no way that crewed exploration could accomplish more science than Mars rovers without orders of magnitude more cost.
But it is important fad just like space mining.
We as humanity have to believe we are not in zero sum game to stay decent…
Unfortunately last years are showing us how ugly it is with rare earth elements, energy etc. It is also showing what you wrote is true. No one really believes that we can affordably space mine for rare earth and no one believes in Martian colonization that would bring tangible benefits.
People said that about everything. I wore a $10 silk tie to work today and ate toast with a $1 Avacado on it.
Marco Polo would shit a brick if he saw Interstate 90.
This could very well be why planned economies seem to struggle with innovation. People being able to devote significant resources to endeavors, that might not make sense to most, is how you get lots of failures, and the occasional revolutionary successes. Do everything by committee and all you get is a shinier version of what you had last year.
The argument that "progress always needed bold steps" can lead into dead ends too. Past experience isn't enough to justify future steps without additional evidence. Exploration and learning are always good reasons but if you jump to the "it's good business" step before knowing all you can reasonably know, it's probably a fad. It's shooting in the dark. It could still hit the target, or it could miss. You only really know if something is a fad or not with hindsight.
It's hard to say with certainty today whether Mars is a viable target for colonization in the long term compared to other places like Titan or even the Moon. Before you drill for oil you do a lot of exploratory activities. If those bring back solid positive results then you go for the full blown thing. Before you launch a business you build a business case. Did anyone provide a solid business case and exploratory evidence for why "going for Mars" is the viable future?
As far as I can tell it's not scientists pushing for colonizing Mars. All we have to go on is the push from a man widely known to pump up the value of his own companies (which this would do and then some) by repeatedly making sweeping promises he failed to keep.
Musk has become demonized mostly because of his politics. He's made bold claims and overwhelmingly fulfilled them in space. For instance there was a time when something we now take for granted - autonomous landing reusable rockets - was deemed impossible by the powers that be. They were even taunted by Boeing et al along the lines of 'yeah, we tried that long ago - the economics don't work. it's cute to see you having a go at it though.'
He's also brought the price to get things to space down multiple orders of magnitude relative to the Space Shuttle. And similarly before him, electric vehicles were glorified go-karts for virtue signaling hipsters. Having any public political opinion in a country as divided as America is going to make a whole lot of people hate you, but I think the efforts to try to marginalize what he's done are a mixture of silliness and ignorance. If he died tomorrow he'd already go down as the Edison of this generation, and there's yet many a decade remaining for him to cement what may be the ultimate legacy of the first man to make humanity truly multiplanetary.
[1] - https://en.wikipedia.org/wiki/The_Case_for_Mars
What about the countless voices, academic included, against it? It's not whether someone thinks it's a good idea but if we have a reasonable consensus on it. 50/50 is a coin flip, not a "peer reviewed" conclusion. It took the blink of an eye to realize putting things in orbit is greatly beneficial. We've been looking at Mars from all sides for decades and the business case is yet to be clear except mostly for people making money by selling you the idea, or the book.
> Musk has become demonized mostly because of his politics. ... He's also brought the price to get things to space down multiple orders of magnitude relative to the Space Shuttle. And similarly before him, electric vehicles were glorified go-karts for virtue signaling hipsters.
Let's not make this the core of the discussion, my objection to him isn't ideological. The companies he has led have a history of fraud, misinformation, and lies. Tesla is the poster child of this. If I can pick just the most obvious examples, FSD has been promised just around the corner for close to a decade now and the recent retroactive change of the contracts really drives the fraud home. Solar Roof was a sham from the start. Boring Company, sham. See how I'm not listing just a "normal" business failure, like xAI failing as a frontier AI lab. Not everything is destined to be a success. I'm just mentioning the things that were overtly lies told for money. SpaceX is probably successful because by all accounts Musk left the leading of the company to the CEO. His history of lies to enrich himself legitimize the attitude to start with the baseline that any wild claim that could enrich him is a lie and wait to be proven otherwise.
For a hammer everything looks like a nail, so for Musk everything is in space. As it happens, he's one of the few parties in the world with easy access to that resource, and acts as a gateway for almost everyone else.
I'm not losing or making money on his success so this for me is just a matter of common sense. If someone lies as often as he does, it's "shame on me" to still assume truth until proven lie.
For instance here [1] is the NYTimes claiming that human flight would be impossible, published just about 2 months before the Wright Bros achieved human flight. Incidentally they also said space flight would be impossible, and were actively patronizing towards the concept. They felt that any child with a basic understanding of science would understand that there's nothing to 'push back against' in space, so spaceflight simply can't work. Until that's proven wrong by actually doing it, some might actually think 'wait that's kind of reasonable - omg maybe it is impossible.'
As for Musk, you're simply assuming malice when e.g. everybody thought full self driving was just around the corner when he made his claims about Tesla bringing it to market. It's kind of the same way that today everybody thinks that in a decade LLMs will be replacing knowledge workers left and right. It's just extrapolating outward from a trendline that exists at one point in time. But it may well be that in a decade we're still predicting that in a decade LLMs will finally be there. Or maybe there will be some revolutionary change, as promised by by all the people pushing LLMs. If it fizzles out, I wouldn't jump to calling them all fraudulent hucksters.
[1] - https://archive.is/F3nnP
Also a big problem can be attacked by solving a small part of it, see what's left & repeat until remaining bits are easy.
Over time, what used to be 'impossible' becomes easy. What matters is deciding what to focus on for the foreseeable future, and spend resources wisely. See eg.:
https://en.wikipedia.org/wiki/Interstellar_travel#Wait_calcu...
Yeah a human mission to Mars, colonizing the clouds of Venus, asteroid mining or Dyson spheres may not be achievable now (if ever). But exploring the problem space, or having a good look at the required engineering, is. And may be cheap as well.
Sure it is a "solved" problem but all the solutions are very heavy.
There is no way that human space exploration is ever cost effective with robot space exploration.
That said, personally I'm in favor of manned missions to as many bodies in the solar system as possible.
You could argue that forever. When is it time to accept that there isn't any there, and if there is, it is insignificant?
While on the topic of human flexibility, it is important to understand that it will be limited due to the resources available. What we saw on Apollo 13 wasn't the product of people trying to expand beyond the mission objectives with what is on hand, it was a last ditch effort to save the Apollo crew. They could afford to do unintended things with the equipment on hand since the only other option was to admit defeat then let people die. Even the very much fictional The Martian was based upon that premise. Treating it as a thought experiment: the primary response was to terminate the mission and evacuate. The part about the lone survivor on Mars was about ditching every mission objective in the name of survival. It would be very difficult to even create a fictional narrative of a human team going beyond the abilities of a similarly appointed robotic mission without abandoning reality altogether.
But if I had to name a specific part, I'd pick the control system. The skycrane is dangling a heavy rover from a pendulum controlled by rockets. It's unstable in every axis and has tight performance requirements to let the rover down softly and not kick up dust. Just very impressive.
The moon is like Napoleon's exile to Saint Helena island, very remote hard to get to.
Mars is like the antarctic, nearly all early explorers died and it take an international effort to stay down there.
No one is going to go rescue you tracking or flying thousands of kilometers in total darkness, snow storms and ~-80C temperatures.
I would have loved to see more Huygens probes dropped to the surface of Titan or more New Horizons zoom past Pluto.
I don't think human spaceflight is to blame, rather it's what connects taxpayers to space exploration as an inspirational human pursuit. But, I do agree that can be more efficient with how we spend those dollars all around.
There's no good reason not to have a steady stream of space telescopes and rovers being sent out at a rate of once or twice per year.
Not only mass production but possibly cheaper materials, more in-space prototyping & less expensive ground testing and paper studies before launch.
There is only so much interest in the surface geology of the other bodies in the solar system.
If SpaceX ever credibly gets to the point of preparing to send people to Mars I'd think that that would have to happen because how else do you vet your landing sites.
The fundamental problem is that moving parts break, so their design/behavior are very limited. For instance Curiosity's drill can only drill to about 6cm, and even then it broke after 16 limited activations. It then took a team of scientists around 2 years to come up with a partially effective workaround. A guy on the scene could have fixed it a few minutes, or done just as effective 'drilling' himself with a spoon. We're literally not even scratching the surface of what Mars has to offer.
Another issue is in mobility. That involves lots of moving parts. So Curiosity tends to move around at about 0.018 mph (0.03 km/h) meaning at its average speed it'd take about 2.5 days to travel a mile. But of course that's extremely risky since you really need to make sure you don't bump into a pebble or head into a low value area. So you want human feedback on a ~40 minute round trip total latency on a low bandwidth connection - while accounting for normal working hours on Earth. So in practice Curiosity has traveled a total of just a bit more than 1 mile per year. And as might be expected its tires have also broken. So it's contemporary travel time would be even worse.
Imagine trying to dig into all the secrets of Earth by traveling around at 1 mile per year, and once every few years (on average) being able to drill hopefully up to 6cm. And all of these things btw are bleeding edge relative to the past. The issue of moving parts break is just an unsolvable issue for now and for anytime in the foreseeable future.
In addition, people still can do a lot of things that robots can't do, like repairing things, or do it much faster: Apollo did more in a few days than the robotic missions did in months.
So sure, a lot of science could be done by moving crewed mission budgets to robotic missions, but that would be a different kind of science, we would learn more in some aspects and less in others.
I think especially for an organization like JPL, where the name is far from a full description of what they're currently about anyway, people tend to just think of them as 'JPL' rather than how we think of, say, the United Nations.
Edit: Also, all a reader even needs to know is what the sentence already directly implies -- that "JPL" are the ones in charge of operating Curiosity. It's like saying "How AMR Corp keeps American Airlines flying during challenging times for aviation"
Otherwise, we have shown, if you need power, send the astronaut up there with a laptop. Which is far easier to replace and upgrade as years advance.
Leveraging VxWorks you effectively have 3 different ways this software gets updated.
Hot Patch -> Do it live! where you modify the RAM with compiled code so that the changes persist until next reboot.
Cold Patch -> Same as a hot patch, except this time you actually copy the contents into non-volatile memory. VxWorks has a really slim profile and thus this helps keep the size manageable to continue doing science experiments.
Full Updated -> Basically a clean install gets burned in.
The guys who do those robots are real studs. 13 years on 64 megs of ram, remotely rebooting and formatting drives. One has to have a steady hand to do such operations. I can only imagine how much time, study and planning any command takes on such a mission. I'll bet they are not allowed to run a `pwd` without a full test and permission check.
Guys who do manned missions to space stations and the moon are also epic. The same amount of prediction while being human. It's quite a show of excellence in training and study. The human won't need a new mission to Mars should he find a new type of rock. Humans can solve problems the rover was not designed to solve in the first place.
So there will be manned and unmanned versions of those missions. Which one - is a tough question depending on myriads of factors that will be decided closer to the time when we are ready for said mission.