antangil

joined 1 year ago
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[–] antangil@lemmy.world 13 points 2 weeks ago

I bet the fine just offsets the cost of the prosecution, it’s not gonna be some settlement, it’s just “time and costs of the lawyers on our side”. Agree that if it’s meant to be punitive, it’s pretty laughable.

[–] antangil@lemmy.world 26 points 3 weeks ago (4 children)

Nah. Folks are big mad because it’s exactly what we all expected when bezos bought the post. It didn’t immediately slide headlong into the void of bullshit pandering, so we developed a sense of false hope. Now it’s gone, we know it, we’re annoyed, and we’re mad about getting took.

[–] antangil@lemmy.world 1 points 2 months ago

Got it.

Space weather is weather - just like on Earth, it’s subject to so many unknowns and unknowable that reliable predictions are somewhere between really hard and totally impossible.

So - on Earth we don’t try to predict the exact weather that a given building is going to experience before we build it - that’d be super hard. Instead, we look at the rational maximum based on what we have seen and add some on top as a margin of safety… and that’s where we get building codes. Same applies in space - we make some measurements and add a factor of safety to cover our uncertainty. We have the same idea of building standards for pretty much everything except, to some extent, radiation.

The problem is that nobody has really found a workable solution for radiation shielding other than the EM shielding effects of large planetary bodies (see: Earth) or “thick shells of dense mass between the sensitive stuff and the outside.” Dense dumb mass is obviously not a great answer because of the launch cost - some have proposed using water, but you’d need a lot to provide adequate shielding… basically, you need a thick enough shell to match the wavelength of whatever radiation you’re shielding from.

I saw something kinda cool at AIAA Ascend from I think UMich that was proposing to basically pump enough electricity into space that the EM field would generate radiation shielding, but that’s like TRL 0 and electricity is also not always easy to come by.

Anyways, since there’s not a good answer for handling radiation, there’s no “building code” and the level of precision on the radiation level experienced is kinda irrelevant from an engineering standpoint. We can’t effectively protect against any amount, so if it’s >0, we have a problem.

I’d also suggest that from a “routinization” perspective you want a consistent building code, not a precise answer - because weather changes over time.

[–] antangil@lemmy.world 2 points 2 months ago (3 children)

Both things exist, certainly, but I’m not sure how I’d establish a common unit to describe a set of things that are mostly waves but with a few particles thrown in. It’d have to be some kind of total energy flux through a selected region of space for a given time, and it’d be super specific to both the region and the timeframe since a CME event at the wrong time would really skew your results… I guess it could be some kind of time-average? So the thing you’d need is a total annual average energy flux of both EM and particle radiation through a region of interest. Such a thing certainly could (and probably has) been measured, but I don’t think I’ve ever seen it all combined. This is maybe a start? It at least has all the radiation information in one spot.

I’m not sure I understand the value proposition of having that kind of information if someone took the time to do it, but it’s a fun thing to think about.

[–] antangil@lemmy.world 3 points 2 months ago* (last edited 2 months ago) (5 children)

So - there are two sources of radiation we think about. There’s radiation from our local bodies - mostly the Sun. The Sun radiates at least some across the entire electromagnetic spectrum, so the trivial answer to your question is “all radiation exists in space to some extent.” There’s also a general “cosmic radiation background” that is (we think) left over from the big bang. That radiation also spans the entire EM spectrum, but at a different distribution to what our Sun emits.

I’m guessing that the trivial answer of “all of it” isn’t what you want and it might be why you’re struggling to find the info you’re searching. Is there a more specific way to formulate your question?

[–] antangil@lemmy.world 8 points 3 months ago

Photo from earlier in the unloading process.

[–] antangil@lemmy.world 3 points 4 months ago

It’s the odds-on favorite for the next generation of radiation-hardened space computers (HPSC). Potential to be a 25x improvement over current capabilities. Guessing most of the use cases will be niche like that, but who knows.

[–] antangil@lemmy.world 3 points 10 months ago

The Starship concept of operations requires 11 launches for each mission to the moon - one for the vehicle, another 10 to refuel it once it get into earth orbit. Each of these missions have to autonomously dock and perform a cryogenic fuel transfer.

Nobody, and I mean nobody, has shown an operationally-viable in-space cryo transfer. Even doing it on Earth is a fussy thing - cryo transfer was behind two of the Artemis I scrubs, and NASA’s been doing it since Apollo.

Getting one Starship into orbit is an interesting milestone but it’s a long way from what they promised the world they could do… and the clock is ticking.

[–] antangil@lemmy.world 1 points 11 months ago

This directive is largely pointless, which is pretty normal for government travel. Absent orders to the contrary, it’s still “lowest-price option that gets you to the destination in time.” 9 times out of 10, that’ll still be the contract airline fare, a basic per diem hotel, and the lowest-bid compact car at the destination.

I’m part of a pretty large subset of government folks that travel largely to large installations (military bases, etc) with no guarantee of EV charging stations because facilities funds have been constricted for decades. The per diem hotels don’t usually have much charger infrastructure either, which means government EV renters will have to run around looking for fast chargers in unfamiliar towns. I’m not at all unusual in this regard; I think it’s pretty unlikely that a given federal govt worker will be able to catch a train to their TDY.

The train thing is goofy except for the northeast and maybe California. I’m not in those places, there isn’t a train station in my zip code, and it looks like POV travel is a no-go now so I can’t leave my immediate vicinity without a rental.

Outside of big population centers, this new rule has no real effect other than to make a few new checkboxes on our travel forms… “did you consider rail travel for this trip? Y/n”, “was an EV rental available at a rate equal to the compact car rate? Y/n

The only thing that would really work here would be a requirement and a subsidy. “Rail travel is required unless the total cost of the rail option is greater than 125% of the air travel option.” “Government travelers are required to rent EVs unless the EV rental price is more than double the cost of a conventional compact.” You’ll also need an “all government buildings shall provide EV charging for official travel.” …and probably a “Government travelers with an EV rental may exceed hotel per-diem by up to $15/night if the hotel has EV charging infrastructure.”

[–] antangil@lemmy.world 25 points 1 year ago (1 children)

Eric Burger has been against SLS for like 15 years, it’s his whole schtick. Loves making points about how expensive it is, about how late it was, and that it means NASA can’t design rockets anymore. Never talks the other side - how Congress hamstrung the design, how it was consistently under-funded, and how it was shackled to Boeing at the same time that the entire company hit the skids.

SLS was forced to be a Frankenstein rocket slash jobs program by legislative fiat. Of course it’s not sustainable in a financially-constrained environment - it was designed to spread money and jobs just as much as it was designed to deliver payloads.

It’s still the only thing that can put an Orion vehicle in orbit, and Orion is the only vehicle we’ve got today that can get crew off the earth and to lunar orbit, and Artemis I was a masterpiece launch of a first-build rocket.

Another SLS hit piece from Ars Technica isn’t news, it’s just noise.

[–] antangil@lemmy.world 7 points 1 year ago

I call shenanigans. A fully autonomous space vehicle is three miracles away - we need a revolution in avionics to get systems capable of running computationally-expensive models, a revolution in sensor technology to allow for dense state knowledge of satellite systems without blowing mass and volume budgets, and we need a revolution in AI/ML that makes onboard collision avoidance and system upkeep viable.

I do believe that someone has pre-trained a model on vegetation and terrain features, has put that model up on a cube sat, and is using it to “autonomously” identify features of interest. I do believe someone has duct-taped a LLM to the ground systems to allow for voice interaction. I do not agree that those features indicate a high level of autonomy on the spacecraft.

[–] antangil@lemmy.world 2 points 1 year ago

At the heart of the OC’s question there’s a valid and useful impulse. We should, as a society, always be asking whether we’re putting our resources in the right places. I just think that the case for space exploration dovetails pretty nicely into where OC wants to focus. Folks that want to shift funding into environmental reclamation are the natural allies of us space exploration nerds. It’s all science, it’s all toward improving humanity. Just need to get us all on the same side of the ball. :)

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