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mikkupikku 10 hours ago [-]
Nobody can even come up with a coherent reason for any of these proposals to exist. Even the ISS is more of a political instrument than a real science thing. NASA likes to say its about studying how to help humans live in space, but those results were in decades ago: more than a few months in zero-g wrecks people. So why are we still trying to build old modular Salyut/Mir derivatives instead of trying to figure out the minimum spin humans need to stay healthy? Because the whole point is to do familiar safe things while providing full time jobs for ground control.
somenameforme 7 hours ago [-]
Extended space spays doesn't really wreck people, it's just that your body adjusts to the new environment so your strength decrease, your bone density decreases, your orientation mechanisms shift to 6 degrees of freedom, and so on. Of course when you get back to Earth you're body again has to go through a readjustment phase because those previous adjustments are now unfit for the new environment, but it's nothing beyond that. It'd be interesting to see what an extremely long stay of like a decade+ would do, but that's a major ask of anybody not only in time commitment but also because it's basically asking whether or not the transition would be fatal, and the answer is unclear.
As for a spinning station, that's something NASA will probably never do. They're extremely risk averse and you're opening up an unknowable, but very large, number of new possible failure scenarios there - many of them likely catastrophic. If anything that's something of an argument for genuine private stations who may have different levels of risk tolerance. Or we can just wait for China, because they'll 100% do it and probably relatively soon.
rcxdude 7 hours ago [-]
It's not just adjustment, there's a decent amount of evidence it's just bad for your health in general, apart from the issues when coming back to earth. Stuff like your circulation also gets messed up.
somenameforme 5 hours ago [-]
I'm active in this topic and have never heard anything similar to what you've mentioned. And in looking this up, there's a very recent study [1] that's quite relevant. They studied the cardiovascular health of astronauts for 5 years after their return from long-duration stays on the ISS. They were all perfectly healthy.
To expand on that - there are many body systems that depend almost entirely on the 1g glodilocks zone. Lymphatic systems movt , venous blood returning deox blood to the heart and even some digestive processes. Keenly dependent on a g value that allows proper muscle tone/function to the systems at play.
Too little or too much and and human life becomes non-viable.
Throw in the effect of ping ponging between microgravity and 1g and the issues multiply.
adrian_b 7 hours ago [-]
The results from ISS are much more pessimistic than you say, suggesting some irreversible damage besides the reversible changes, but I am lazy now to search links to the research articles. The weakening of the skeletal muscles is not the worst, but the deterioration of the heart muscle.
However, the research done on mice on ISS suggests that the undesirable effects can be mitigated by creating an artificial gravity (i.e. rotation) lower than on Earth, e.g. of 2/3 of Earth's gravity.
The failure scenarios for rotating spacecraft need not be more severe than for non-rotating spacecraft. For instance if 2 or more spacecraft, which can be also used independently, are connected with cables to enable them to rotate around the common center of mass, if everything is designed carefully the failure of the coupling system should not have any other consequences than the loss of the artificial gravity and from then on the failure risks would be the same as for non-rotating spacecraft.
Havoc 9 hours ago [-]
At risk of crassness - human lives are pretty cheap and there are plenty of people willing to take the hit for a chance to be in space for an extended timeframe. Meanwhile building something with enough spin and shielding is a huge ask
maxerickson 9 hours ago [-]
If manned stations aren't doing any particularly unique research, especially research that couldn't be done with automation, why spend huge resources on them?
Havoc 8 hours ago [-]
I'd be very surprised if they're genuinely out of research ideas to test in space. If that is actually true then humanity has a problem.
>research that couldn't be done with automation
I'd think there is room for both. Automation makes sense, but don't think the versatility of meatbags is entirely there yet.
gus_massa 6 hours ago [-]
> if they're genuinely out of research ideas to test in space
A bigger problem is lack of expertise. Astronauts are not specialist in whatever is the topic of the current experiment. You need probably like 5 years of training (assume the second half of the undergraduate degree, and perhaps the first half of the PhD). So experiments must be fully automated except for a button to turn they on and off.
Gud 4 hours ago [-]
We don't really need to send "astronauts"(highly trained operatives) to space anymore.
SpaceX has made that happen.
maxerickson 6 hours ago [-]
Lots of research has technicians doing the actual experimental tasks, your argument would benefit from even a short list of experiments that have not been done because astronauts couldn't be expected to handle it.
jfengel 6 hours ago [-]
Meatbags are versatile but really, really expensive. They require a really vast support system, and it has to be highly redundant because the cost of a loss is so high.
You can send up a lot of less versatile bots for the price of one meatbag.
pennomi 8 hours ago [-]
An entirely different form of research could be done by sending large quantities of normal people into space. Astronauts are such a small sample size (and so thoroughly vetted) that you get a different statistical view.
__patchbit__ 9 hours ago [-]
Horses for courses micromanagement business administration and lobbying gravy train.
kjkjadksj 7 hours ago [-]
Maintain american capacity to put technicians in low earth orbit. People forget a big part of the shuttle mission for example was to capture and put technicians not just on your satellite but any satellite the shuttle was capable of intercepting and getting into the bay. Consider the fact that the shuttle didn’t really die, in fact the airframe form is still flown but its mission is now classified.
mikkupikku 3 hours ago [-]
If the shuttles ever tinkered with any satellites they weren't meant to, it was relatively boring ones in low inclination orbits, not the really cool ones in earth observing polar orbits. We know this because the shuttles never went to those orbits.
maxerickson 6 hours ago [-]
It's cheaper to launch replacements than it is to do maintenance (at least, if you plan it that way).
There are not classified shuttle equivalents launching, not sure what you are talking about there. The X37 has the capability to land, but it is not manned and is tiny compared to the shuttle.
kjkjadksj 2 hours ago [-]
X37 is what I am talking about. Same form: big flying satellite workshop. Just reduced footprint, and obviating the human so it could spend years in orbit and maximize cargo. But if they decided they needed a bigger X37 for larger bay space seems it could be done pretty trivially given shuttle experience. Or one stocked with a couple of those robots that just goosewalked with Melania Trump contorted into some packaging.
mikkupikku 8 hours ago [-]
We don't even know how much spin we'd need, and this is an important question to answer if lunar or martian habitats are something we're serious about. Maybe enough spin to match lunar gravity is enough, maybe less, maybe a lot more.
adrian_b 7 hours ago [-]
Due to research done on mice on the ISS, we have some idea:
"0.33g mitigates muscle atrophy while 0.67g preserves muscle function and myofiber type composition in mice during spaceflight"
Obviously, we know that the gravity of Earth is sufficient.
But the results make probable that two thirds of the gravity of Earth might be enough, while the gravity of Mars may create some problems and the gravity of the Moon is very likely to be insufficient, so the time spent on the Moon must be limited, though not so much as on the ISS.
I agree with the previous poster that any spaceship designed for carrying humans to Mars or even farther must be designed to spin and anyone who accepts to go on something else is stupid.
Making a spinning spaceship may be cheap if dual bodies or one body and a counterweight are used. It is likely that the safest solution would be to have 2 identical spacecraft, which could also be used independently but which could be coupled with cables to spin around the common center of mass at a distance big enough to create enough gravity at a low rotation speed.
The problem is not the price but the fact that nobody has tested how difficult is to control such a configuration (avoiding oscillations and instabilities) and how difficult is to solve problems like docking in a manner that does not waste energy (i.e. without changing the rotation speed of the more massive spinning spacecraft, which can be done by having 1 or more docking ports on the rotation axis, like on the hub of a wheel; in the case when the rotating spacecraft would be made with 2 bodies or a body and a counterweight that would be linked with cables, one could have the equivalent of an elevator for transporting crew and equipment from the docking port to the main body or bodies).
But someone must build and test such a spacecraft, otherwise we will never learn how to do it right and which are the real problems that are hard to predict in a simulation.
ACCount37 9 hours ago [-]
I agree that a "long term fractional g spin test" is one of the most valuable things a LEO station can do. But there are others too.
For example, medical interventions against zero-g decay can be tested in any microgravity, spin or no spin. Development of in-space manufacturing and assembly can happen on any sufficiently capable space station.
All of that, however, requires a good amount of ambition. And I'm not sure if NASA under the current political system can deliver ambition.
le-mark 8 hours ago [-]
> For example, medical interventions against zero-g decay
This seems obvious but I’ve never heard of anyone working on a drug to address it. Strapping astronauts to a treadmill yes, pills no.
MagicMoonlight 8 hours ago [-]
Because that’s like saying you’ll develop a fuel additive to stop the body from rusting. Physical damage and weakness can’t be stopped by a pill.
ACCount37 3 hours ago [-]
"Body" is a pile of elaborate biochemistry. The muscles don't somehow evaporate when you stop exercising - it's the processes of the body itself that trim the "excess" muscle tissue.
And if it's the body doing that, you can, in theory, find a biochemical way to make it stop doing that.
avmich 7 hours ago [-]
Seems like a very broad statement. Do you have anything to confirm this opinion?
Rumudiez 7 hours ago [-]
Do you have any grounds to deny it? If it were easy it would have been done already
mrits 7 hours ago [-]
"Physical damage and weakness can’t be stopped by a pill."
If you rephrase that to correct English then it would make sense. We aren't trying to stop physical damage or weakness we are trying to prevent it from happening. Pills can prevent many things that cause this.
idiotsecant 9 hours ago [-]
Nobody cares about ground control. They care about aerospace industry in their states. Public space programs aren't about science and engineering, no they are primarily about jobs. We burn enormous capital in strange ways in order to divert a small amount of capital into useful places. Its the only way to get it done, so I can live with it.
mikkupikku 9 hours ago [-]
Senators care about ground control. Jobs is the whole reason any of them agree to fund NASA at all.
avmich 7 hours ago [-]
NASA is the goverment agency routinely favored by the general public. They can't meaningfully reduce funding, now that "race to space" with China is heating up.
mikkupikku 5 hours ago [-]
Most of the public don't know there's another space race and would probably tell you that Artemis is a new brand of deodorant or something. Senators don't care about space fans, they just want NASA to be a consistent reliable jobs program that doesn't throw any curve balls (hence NASA's [nominal attempts to have a] low tolerance for risk.)
metalman 10 hours ago [-]
Right!
And because China has a good chance of pulling of a moon and then mars landing first, they are lurching into, hmmmm,ok,they are lurching flat out trying to bluster up a program without disturbing the space grift industry, ie: SLS , Shuttle Leftover Systems
and the whole thing disolves into cringe
Muromec 9 hours ago [-]
Disbanding NASA would be one of those symbolic things thay people will associate the dusk of American empire.
readthenotes1 9 hours ago [-]
Nah. It will probably be either the Space Shuttle or Artemis. That is to say, programs that showed NASA lost control of its mission to graft
pfdietz 8 hours ago [-]
Avoiding something for such symbolic reasons is negative cargo cult thinking.
Muromec 5 hours ago [-]
You are right and I don't think it should be avoided. It's just that, a symbolic milestone of sorts. A cutoff date.
Supermancho 8 hours ago [-]
> Avoiding something [disbanding NASA] for such symbolic reasons [???] is negative cargo cult thinking.
Cargo-cult requires a rigid through-line.
What criteria would you use, to choose to avoid something in order to preemptively avoid hindsight analysis? It's a nonsensical line of thinking.
pfdietz 7 hours ago [-]
Cargo cult requires a confusion of cause and effect. Airplanes carrying cargo didn't land because there was a control tower; they landed because of prior causes that also caused the construction of a control tower.
And here, the US does not decline because of some symbolic action, but rather decline causes the action.
This confusion of cause and effect is literally a kind of magical thinking.
mikkupikku 3 hours ago [-]
You're broadly right, but I think you're missing the part where perception of reality feeds back into reality, e.g. through economic effects. Demoralized Americans with less hope for the future stop caring, stop trying, and this in turn hastens that same decline.
aaron695 9 hours ago [-]
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xoa 7 hours ago [-]
It's pretty wild to me that in both the article (written by Eric Berger, who really knows his stuff and did two fantastic books on the history of SpaceX and the rise of new space) and the first 31 comments made here on HN as I write this that a Find for one word has zero results: "starship". That's the overwhelming behemoth elephant in the room. For the purposes of launching/building a space station, it doesn't matter if Starship can't reenter, or refueling doesn't work or any of the other hard problems. It just needs to get to orbit. Which it has proven it can. And that means that any space station developed using anything before that will be rapidly completely obsolete from a commercial perspective. Starship will just offer so much more volume and mass for the same cost or less. NASA may want very hard to hit their 2030 deadline, but the technology may simply not line up to do it on the budget they want and desired partner concerns, same as how the retirement of the Space Shuttle didn't line up with American private launch (though of course in the end that has made it and been a big win). No company that actually wants to make money is going to risk billions on something that somebody else can lap them on by an order of magnitude in a few years or less.
I suspect that of "continuous presence in low orbit", "longer term new capabilities", "in budget", and "commercially successful" NASA is going to be forced to pick one or two and that's what they're resisting. Rushing things along almost always costs a lot of money and features. If you want to hit a budget and features then you have to be willing to wait for the various bits to line up and preferably spend some time experimenting and exploring new capabilities and strategies before big hardware commitments. There's a lot of moving parts here to think through. This would all be true even if that was NASA's only concern, vs going to the Moon and all the normal and importance science and so on they're getting pushed on.
hgoel 6 hours ago [-]
I think even experts like Eric are now being conservative on Starship because the program is genuinely in a tough spot.
For most satellites/space stations, you need a proper payload deployment mechanism. The pez dispenser mechanism was chosen because opening the entire payload bay and closing it back up for reentry is a tough problem. For now it has been put aside to focus on the goals for Artemis, but that also means not being able to launch stuff other than Starlink.
Starship is currently still stuck in development hell, Musk is already backing off from his Mars plans, SpaceX is moving to distractions and going public (something they previously claimed would not be done).
To me, these moves do not suggest confidence in Starship's ability to live up to its advertised capabilities.
NASA finally got a leader with a clear vision, and with technologies like Starship and Blue Origin's New Glenn getting ready, the future is bright!
ISS is no longer the frontier, and I am glad NASA is focusing its resources on the future.
jfengel 6 hours ago [-]
I don't think Starship has gotten to orbit yet. It's gotten to altitude but not speed. That's a very big deal, because slowing down from that speed is a massive challenge unto itself.
Orbit is scheduled for the test after next, if all goes well.
They don't really need Starship just for orbit. They've already got ships that get to the ISS and back. They really do need to get Starship to orbit or their plans really will be hosed.
sbuttgereit 3 hours ago [-]
They've pretty clearly demonstrated the ability to get to orbit but have, quite reasonably, not actually put the thing into orbit. Given the size of the rocket they've been needing to demonstrate things like the relight for control after achieving orbit and have prioritized other issues like figuring out reentry.
So yes, you are literally correct in that they haven't put one in orbit, but it's more out of caution than capability. What they've only demonstrated in the most recent tests is that they have good reason to believe to believe that they can deorbit in a controlled fashion. But... now they've upgraded everything: raptor 3, booster v3, starship v3. Those need to prove out those capabilities again.
So I wouldn't be surprised if they continue the suborbital program for the next 3 or 4 tests. Given all the redesign, they aren't exactly at the beginning, but they have to show that they haven't broken what they previously fixed.
xoa 6 hours ago [-]
>I don't think Starship has gotten to orbit yet. It's gotten to altitude but not speed.
I'm honestly kinda curious how you came to this thinking after watching the launches, like the last Flight 11 [0]? They have the velocity listed at all times right there in the bottom corner. It's peaking over 7.4 km/s, seems pretty clear they were stopping just barely short and maintaining a ballistic path on purpose exactly as they said they would in the flight plan they filed ahead of time with the FAA for deorbit safety purposes, not because they couldn't have technically squeezed out another few hundred m/s and different trajectory if that was the goal. It's a hardware rich program, and their testing sequence has been reasonably careful about controlling the space of out of bounds scenarios (on the scale of rocketry). What has lead you to believe that they can do 7.4+ km/s with Raptor 2 and Block 2 but v3 won't be able to do ~7.8 (or that they couldn't have done it with v2 for that matter)?
AFAIK they are just cutting the engines off some seconds before they would achieve full orbit, and they have already demonstrated deorbut burns. So I don't think a proper orbit will be a big hurdle for SpaceX.
stogot 7 hours ago [-]
The Starship is also built to house astronauts for longish trips. It’s not a stretch to think of it as a larger Skylab station. If the can figure out how to attach six or eight of them in a ring with bridges and spin, they could have the artificial gravity station that’s been the stuff of science fiction (and the movie The Martian)
pfooti 7 hours ago [-]
For reasons of gyroscopic precession I suspect that they will remain largely science fiction for the foreseeable future.
Lerc 6 hours ago [-]
Can you elaborate on that. What is the problem for which you do not forsee a near term solution?
colordrops 6 hours ago [-]
So you run two sets spinning in opposite directions.
codexb 8 hours ago [-]
NASA hasn't had a proper goal or mission for decades. That's their problem. And the spaceflight goal that everyone wants -- making things cheaper -- is not something that government agencies are particularly good at producing.
dylan604 7 hours ago [-]
It's hard for NASA or any government agency to have a real vision for anything longer than the current administration it is operating under. When the current POTUS can replace the head of that agency to install someone that more closely aligns to their views, you get ping ponging agendas. Stop everything you're doing because POTUS does not believe in it. Okay, just kidding, new POTUS disagrees with previous POTUS, so go back to what you were doing. That's not a problem to do after stopping work for 4-8 years, right?
1970-01-01 7 hours ago [-]
You can point to any administration in the government and make the same statement. They're mostly defensive administrations; making sure things aren't getting out of control. NASA almost by definition needs a technical project and problems to solve. They were never a defense administration keeping the status quo.
Sharlin 7 hours ago [-]
Their goal and mission of returning to the moon turns 25 this year. But you're right, it has hardly ever been a proper goal. But that's the manned program only. The unmanned planetary science program has been hugely successful relative to the amount of money they get.
dboreham 7 hours ago [-]
That said, SpaceX exists entirely due to early NASA funding.
youknownothing 6 hours ago [-]
Well, I'm happy about NASA's idea for private space stations. Maybe I'm not happy with the timing, but I definitely think that this is the future. If you make space stations a valid, self-sustaining industry, that frees up budget for NASA to pursue other non-economically viable missions like going to the Moon and to Mars. It's like someone else's comment about the space shuttle: I was sad to see it go, and maybe it was premature, but private space transport is a more economical way of reaching space.
1970-01-01 8 hours ago [-]
You can have private or you can argue to Congress about the budget and get nothing. Take your pick.
le-mark 8 hours ago [-]
It seems obvious to me there will be methods and techniques using solar energy to disassemble asteroids and output large structures such as cylinders or spheres that will then become habitats. Example given a spherical grid one kilometer in diameter, apply a charge to it, place several tons of steel at the the center. Focus a mirror at the steel, vaporize and electro deposit the steel on grid. Voila steel sphere.
I’d like to see someone working on this, could be done in LEO.
ck2 8 hours ago [-]
wait 1,000 days
this is the lost decade of science and progress unfortunately
creantum 7 hours ago [-]
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vaadu 8 hours ago [-]
Not enough opportunity to grift off the taxpayers. Private enterprise will focus on faster, cheaper, better while the government and its contractors focus on keeping the gravy training running.
cl0ckt0wer 9 hours ago [-]
It's liability laundering. If an openclaw blackmails a politician while hosted in space, what's the legal recourse?
Loughla 9 hours ago [-]
Why would the chatbot be liable instead of the person who instigated that process?
ambicapter 8 hours ago [-]
The person will argue since it was in space, no laws were broken. You think the type of guy busy trying to put data centers in space right now is gonna say “mea culpa”?
Loughla 7 hours ago [-]
And then it's up to the courts to decide.
There's literally no difference between putting it in space and putting it in North Korea or some other country who won't extradite to the US or wherever. Except the massive cost.
It just doesn't make sense.
ambicapter 6 hours ago [-]
> There's literally no difference between putting it in space and putting it in North Korea
Literally no difference except the likelihood of it happening and therefore whether or not we should be concerned about it. What even is this type of argument?
ceejayoz 5 hours ago [-]
It's likely easier to put it in North Korea than space.
ceejayoz 9 hours ago [-]
International law says you spank whoever launched it. There’s treaties on this.
Barring that, we have anti-satellite missiles.
Muromec 9 hours ago [-]
What law?
patmorgan23 9 hours ago [-]
The Treaty on Principles Governing the Activities of States in the Exploration and Use of Outer Space, including the Moon and Other Celestial Bodies.
A person who wrote the prompt, the person who spawned the instance, the person who provided the access to infra, the person who launched it.
At the end of the day, there is somebody who profits from it or could have prevented it
steve_adams_86 7 hours ago [-]
My worry is that networks can be established on and orbiting the moon which become extremely difficult to get data from if someone decides to abuse it.
You can raid a data center if bad actors are utilizing it to break the law, but if some billionaire is using a moon relay to do bad stuff, the best you can do is de-allocate their bandwidth on the spectrum since you can't just hop over to the moon. Or to some craft in space. De-allocation would depend on international cooperation, inevitably. It would suddenly be far, far easier to break the law on networks and become effectively untraceable. This equipment will certainly be privately owned (like the prototypical versions already are) and it will be an extremely potent tool for breaking the law without consequence.
Also it looks like allocation of spectrum doesn't mandate logging, so you could in theory have data centers floating around which don't even trace who did what and how. If any country chooses to facilitate this and allows this communication to be received, and propagates it to their internet, what does the rest of the world do? Is it cause for conflict? Are there ways to stop the traffic from outside of the country?
I'm sure I'm missing tons of pertinent details here and this isn't meant as a totally impenetrable statement about the future. It's more so that I have concerns that this could actually happen based on the limited understanding I have. So feel free to tear it apart and let me know how dumb my idea is.
Muromec 5 hours ago [-]
>You can raid a data center if bad actors are utilizing it to break the law, but if some billionaire is using a moon relay to do bad stuff, the best you can do is de-allocate their bandwidth on the spectrum since you can't just hop over to the moon.
You don't need to raid the data center, you just need to compel the flesh-bound weakling in your jurisdiction that has effective control to cede the effective control. Or hack into it by obvious means.
> If any country chooses to facilitate this and allows this communication to be received, and propagates it to their internet, what does the rest of the world do?
If a hostile country wants to do that they don't need space data centers. Case in point starts with r and end with ussia.
Even if it is in space, somebody assigns the AS numbers and provides peering. You don't have to reach the other end of the rope to cut it.
As a worst-case scenario, you just stop Internetting altogether and only allow information to flow to and from AS that are in your geopolitically aligned jurisdiction.
ceejayoz 5 hours ago [-]
> if some billionaire is using a moon relay to do bad stuff, the best you can do is de-allocate their bandwidth on the spectrum
As for a spinning station, that's something NASA will probably never do. They're extremely risk averse and you're opening up an unknowable, but very large, number of new possible failure scenarios there - many of them likely catastrophic. If anything that's something of an argument for genuine private stations who may have different levels of risk tolerance. Or we can just wait for China, because they'll 100% do it and probably relatively soon.
[1] - https://journals.physiology.org/doi/full/10.1152/japplphysio...
However, the research done on mice on ISS suggests that the undesirable effects can be mitigated by creating an artificial gravity (i.e. rotation) lower than on Earth, e.g. of 2/3 of Earth's gravity.
The failure scenarios for rotating spacecraft need not be more severe than for non-rotating spacecraft. For instance if 2 or more spacecraft, which can be also used independently, are connected with cables to enable them to rotate around the common center of mass, if everything is designed carefully the failure of the coupling system should not have any other consequences than the loss of the artificial gravity and from then on the failure risks would be the same as for non-rotating spacecraft.
>research that couldn't be done with automation
I'd think there is room for both. Automation makes sense, but don't think the versatility of meatbags is entirely there yet.
A bigger problem is lack of expertise. Astronauts are not specialist in whatever is the topic of the current experiment. You need probably like 5 years of training (assume the second half of the undergraduate degree, and perhaps the first half of the PhD). So experiments must be fully automated except for a button to turn they on and off.
You can send up a lot of less versatile bots for the price of one meatbag.
There are not classified shuttle equivalents launching, not sure what you are talking about there. The X37 has the capability to land, but it is not manned and is tiny compared to the shuttle.
"0.33g mitigates muscle atrophy while 0.67g preserves muscle function and myofiber type composition in mice during spaceflight"
https://pmc.ncbi.nlm.nih.gov/articles/PMC12985678/
Obviously, we know that the gravity of Earth is sufficient.
But the results make probable that two thirds of the gravity of Earth might be enough, while the gravity of Mars may create some problems and the gravity of the Moon is very likely to be insufficient, so the time spent on the Moon must be limited, though not so much as on the ISS.
I agree with the previous poster that any spaceship designed for carrying humans to Mars or even farther must be designed to spin and anyone who accepts to go on something else is stupid.
Making a spinning spaceship may be cheap if dual bodies or one body and a counterweight are used. It is likely that the safest solution would be to have 2 identical spacecraft, which could also be used independently but which could be coupled with cables to spin around the common center of mass at a distance big enough to create enough gravity at a low rotation speed.
The problem is not the price but the fact that nobody has tested how difficult is to control such a configuration (avoiding oscillations and instabilities) and how difficult is to solve problems like docking in a manner that does not waste energy (i.e. without changing the rotation speed of the more massive spinning spacecraft, which can be done by having 1 or more docking ports on the rotation axis, like on the hub of a wheel; in the case when the rotating spacecraft would be made with 2 bodies or a body and a counterweight that would be linked with cables, one could have the equivalent of an elevator for transporting crew and equipment from the docking port to the main body or bodies).
But someone must build and test such a spacecraft, otherwise we will never learn how to do it right and which are the real problems that are hard to predict in a simulation.
For example, medical interventions against zero-g decay can be tested in any microgravity, spin or no spin. Development of in-space manufacturing and assembly can happen on any sufficiently capable space station.
All of that, however, requires a good amount of ambition. And I'm not sure if NASA under the current political system can deliver ambition.
This seems obvious but I’ve never heard of anyone working on a drug to address it. Strapping astronauts to a treadmill yes, pills no.
And if it's the body doing that, you can, in theory, find a biochemical way to make it stop doing that.
If you rephrase that to correct English then it would make sense. We aren't trying to stop physical damage or weakness we are trying to prevent it from happening. Pills can prevent many things that cause this.
Cargo-cult requires a rigid through-line.
What criteria would you use, to choose to avoid something in order to preemptively avoid hindsight analysis? It's a nonsensical line of thinking.
And here, the US does not decline because of some symbolic action, but rather decline causes the action.
This confusion of cause and effect is literally a kind of magical thinking.
I suspect that of "continuous presence in low orbit", "longer term new capabilities", "in budget", and "commercially successful" NASA is going to be forced to pick one or two and that's what they're resisting. Rushing things along almost always costs a lot of money and features. If you want to hit a budget and features then you have to be willing to wait for the various bits to line up and preferably spend some time experimenting and exploring new capabilities and strategies before big hardware commitments. There's a lot of moving parts here to think through. This would all be true even if that was NASA's only concern, vs going to the Moon and all the normal and importance science and so on they're getting pushed on.
For most satellites/space stations, you need a proper payload deployment mechanism. The pez dispenser mechanism was chosen because opening the entire payload bay and closing it back up for reentry is a tough problem. For now it has been put aside to focus on the goals for Artemis, but that also means not being able to launch stuff other than Starlink.
Starship is currently still stuck in development hell, Musk is already backing off from his Mars plans, SpaceX is moving to distractions and going public (something they previously claimed would not be done).
To me, these moves do not suggest confidence in Starship's ability to live up to its advertised capabilities.
NASA finally got a leader with a clear vision, and with technologies like Starship and Blue Origin's New Glenn getting ready, the future is bright!
ISS is no longer the frontier, and I am glad NASA is focusing its resources on the future.
Orbit is scheduled for the test after next, if all goes well.
They don't really need Starship just for orbit. They've already got ships that get to the ISS and back. They really do need to get Starship to orbit or their plans really will be hosed.
So yes, you are literally correct in that they haven't put one in orbit, but it's more out of caution than capability. What they've only demonstrated in the most recent tests is that they have good reason to believe to believe that they can deorbit in a controlled fashion. But... now they've upgraded everything: raptor 3, booster v3, starship v3. Those need to prove out those capabilities again.
So I wouldn't be surprised if they continue the suborbital program for the next 3 or 4 tests. Given all the redesign, they aren't exactly at the beginning, but they have to show that they haven't broken what they previously fixed.
I'm honestly kinda curious how you came to this thinking after watching the launches, like the last Flight 11 [0]? They have the velocity listed at all times right there in the bottom corner. It's peaking over 7.4 km/s, seems pretty clear they were stopping just barely short and maintaining a ballistic path on purpose exactly as they said they would in the flight plan they filed ahead of time with the FAA for deorbit safety purposes, not because they couldn't have technically squeezed out another few hundred m/s and different trajectory if that was the goal. It's a hardware rich program, and their testing sequence has been reasonably careful about controlling the space of out of bounds scenarios (on the scale of rocketry). What has lead you to believe that they can do 7.4+ km/s with Raptor 2 and Block 2 but v3 won't be able to do ~7.8 (or that they couldn't have done it with v2 for that matter)?
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0: https://www.youtube.com/watch?v=9tvK7flZ72c
I’d like to see someone working on this, could be done in LEO.
this is the lost decade of science and progress unfortunately
There's literally no difference between putting it in space and putting it in North Korea or some other country who won't extradite to the US or wherever. Except the massive cost.
It just doesn't make sense.
Literally no difference except the likelihood of it happening and therefore whether or not we should be concerned about it. What even is this type of argument?
Barring that, we have anti-satellite missiles.
https://www.unoosa.org/oosa/en/ourwork/spacelaw/treaties/int...
At the end of the day, there is somebody who profits from it or could have prevented it
You can raid a data center if bad actors are utilizing it to break the law, but if some billionaire is using a moon relay to do bad stuff, the best you can do is de-allocate their bandwidth on the spectrum since you can't just hop over to the moon. Or to some craft in space. De-allocation would depend on international cooperation, inevitably. It would suddenly be far, far easier to break the law on networks and become effectively untraceable. This equipment will certainly be privately owned (like the prototypical versions already are) and it will be an extremely potent tool for breaking the law without consequence.
Also it looks like allocation of spectrum doesn't mandate logging, so you could in theory have data centers floating around which don't even trace who did what and how. If any country chooses to facilitate this and allows this communication to be received, and propagates it to their internet, what does the rest of the world do? Is it cause for conflict? Are there ways to stop the traffic from outside of the country?
I'm sure I'm missing tons of pertinent details here and this isn't meant as a totally impenetrable statement about the future. It's more so that I have concerns that this could actually happen based on the limited understanding I have. So feel free to tear it apart and let me know how dumb my idea is.
You don't need to raid the data center, you just need to compel the flesh-bound weakling in your jurisdiction that has effective control to cede the effective control. Or hack into it by obvious means.
> If any country chooses to facilitate this and allows this communication to be received, and propagates it to their internet, what does the rest of the world do?
If a hostile country wants to do that they don't need space data centers. Case in point starts with r and end with ussia.
Even if it is in space, somebody assigns the AS numbers and provides peering. You don't have to reach the other end of the rope to cut it.
As a worst-case scenario, you just stop Internetting altogether and only allow information to flow to and from AS that are in your geopolitically aligned jurisdiction.
Or you arrest them, or drone strike them.