Tag Archives: space

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Falcon Heavy

Unless you’ve been under that good old hypothetical internet-proof rock for the last couple of days, you’ve surely seen at least a snippet of news about SpaceX’s announcement of their Falcon Heavy rocket. With all the standard caveats (it’s still on the drawing board, things can go wrong, rocketry ain’t easy), “gamechanger” seems like a reasonable term to use; more than twice the payload of the Space Shuttle at a much lower price-per-launch. Personally I’d still like to see us moving away from rocketry as prime launch technology, but hey, anything that makes further developments at the top of the gravity well is OK by me. Plus it has a name that could just as easily adorn the bottle of some obscure craft-brewery ale… 🙂

I know we have some hardcore spacegeeks in the audience, so let me know what you think about this one – are bigger cheaper fireworks the answer, or are SpaceX aiming in the wrong direction here?

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The physiology and psychology of living in space

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Via BigThink, Robert Lamb of Discovery News has compiled an overview of the physical and mental adjustments a human being makes to living in the microgravity of an orbital space station:

Stage Three: Sometime between week six and week 12, you can expect things to get a little moody aboard the old space station. Russian observations found that a number of the symptoms were linked to boredom and isolation. You become hypertensive, irritable and less motivated. Expect to fly off the handle whenever a crew member drifts into your personal space or borrows your iPod without asking. You can also expect increased sensitivity to loud noises, changes in musical preferences, exhaustion, sleep disturbances and loss of appetite. It should come as no surprise that this sometimes results in an “accusation of negative personality traits.”

Mundane/hard SF writers, take note – plenty of scientifically verifiable story triggers in there. Especially in Stage Four, which is all about “prevailing feelings of euphoria” and “new insights into the meaning of life and the unity of mankind”… so, kinda like watching 2001 with a headful of Owsley’s Old Original, then. (I’m kidding, of course. Well, mostly.)

Of course, the above research can, perforce, only describe the effects of a relatively short tenure at the top of the gravity well; for anything longer than a five-moth stretch, you’re probably gonna want to go cyborg

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‘Comrade’ in its most sincere sense

No clever commentary on this one; just an exhortation that you go and read the story of Vladimir Kamarov, Soviet astronaut and best buddy of Yuri Gagarin, and his harrowing death from falling to earth in a space capsule that everyone knew wasn’t fit to fly [via MetaFilter]. Not only does it shine a light on the spectacular levels of wilful ignorance that the Soviet top dogs were willing to engage in if it meant possibly getting a jump on the Yankees, but – if it can be taken as true – it’s also a story of making the ultimate sacrifice to save a friend’s life.

The space vehicle is shoddily constructed, running dangerously low on fuel; its parachutes — though no one knows this — won’t work and the cosmonaut, Vladimir Komarov, is about to, literally, crash full speed into Earth, his body turning molten on impact. As he heads to his doom, U.S. listening posts in Turkey hear him crying in rage, “cursing the people who had put him inside a botched spaceship.”

Go on, it’s not a long piece – go read it.

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Cassini flyby

I’m a bit on the busy side in mundane meatspace at the moment. I’m in the process of planning a house-move back to my home town, and there’s nothing so torturous or frustrating as the bureaucratic sides of the tenant-landlord relationship, even (or seemingly especially) when you’re the sort of tenant who looks after the place where you’re living (because you’re treated by default as if you’re going to be one of the other sort). Still, all will surely resolve in due time, and I’ll be back in the real city that contains the imaginary city that my own blog was named for…

But I digress. In lieu of me pontificating on something topical, here’s a slice of pure sensawunda in the form of a composite video of Saturnian flybys. What’s extra-awesome about this is that those images aren’t CGI or artist’s impressions based on distant data; these are actual real images. Taken by a fuggin’ spaceship we built. A spaceship that has flown past fuggin’ Saturn.

Barber’s Adagio probably helps, but if watching that doesn’t give you a bit of a lump in the throat or a burn in the tearduct, I’m pretty sure you’re not really human.

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Space colonisation logistics

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Man, space really is back on the menu all of a sudden – an odd reaction, perhaps, considering that the Shuttle has now flown its last. But then again, the commercial space sector is making positive noises, and perhaps the general global sense of gloominess is pushing us to think beyond the confines of Mudball the First…

Psychology aside, if you’re planning to move up and out, you need a battleplan. Over at Lightspeed Magazine, Nicholas Wethington sets out a basic sequence: [Moon -> Mars -> Asteroids -> “Icies”]. Personally I’d have suggested [Orbitals -> Lagrange -> Moon / Asteroids -> Mars -> Outer System], though the Moon does have the advantage of all that radiation-absorbing regolith lying around.

Wethington wisely points out that water is one of your main essentials, wherever you want to go. Fortunately, it turns out that there’s a whole lot more water out there than we initially thought:

The numbers get to be striking, as Hauke Hussmann and colleagues show in a 2006 paper in Icarus. Start with Galileo, the mission to Jupiter that brought home how much we needed to modify our view of the giant planet’s moons. Galileo discovered secondary induced magnetic fields in the vicinity of Europa, Callisto and Ganymede, offering strong observational evidence for subsurface oceans on all three. The fields are thought to be generated by ions contained in the liquid water layer underneath the icy outer shells. Europa has, of course, become a prime target for future study re astrobiology thanks to the prospect of water combined with a possibly thin ice layer.

The Hussmann paper goes on to calculate interior structure models for medium-sized icy bodies in the outer Solar System, assuming thermal equilibrium between radiogenic heat produced by the core and the loss of heat through the ice shell. Now we really start expanding the picture: The paper shows that subsurface oceans are feasible not just on the now obvious case of Europa, but also on Rhea, Titania, Oberon, Triton and Pluto. A case can also be made for the Trans-Neptunian Objects 2003 UB313 , Sedna and 2004 DW.

Add that to the asteroids and comets, and there’s plenty of options… though none of them are exactly convenient to us at first.

Once we’re out there grabbing iceballs and digging resources out of odd-shaped rocks, we’ll need to stay in touch with one another – how else are we gonna broker the sale of our freshly-mined metals? Luckily Google’s Vint Cerf is on the case, ignoring the more mundane issue of address space on the terrestrial intertubes in favour of thinking about an interPlanetary internet [via SlashDot]:

We recognized as far back as 1998 that the traditional Internet design had implicit in it the assumption that there was good connectivity, and relatively low latency, whereas in a space environment, when you are talking at interplanetary distances, you have speed-of-light delays and those can be minutes to days. We need this new Bundle Protocol to overcome the latencies and all the disconnects that occur in space, from celestial motion [and from] orbiting satellites.

The Bundle Protocols are running onboard the International Space Station. They are running in a number of locations around the United States in the NASA labs and in academic environments. There’s a thing called the Bundle Bone, which is like the IPv6 backbone, that is linking a lot of these research activities to one another.

[…]

So during 2011, our initiative is to “space qualify” the interplanetary protocols in order to standardize them and make them available to all the space-faring countries. If they chose to adopt them, then potentially every spacecraft launched from that time on will be interwoven from a communications point of view. But perhaps more important, when the spacecraft have finished their primary missions, if they are still functionally operable — they have power, computer, communications — they can become nodes in an interplanetary backbone. So what can happen over time, is that we can literally grow an interplanetary network that can support both man and robotic exploration.

Obsolete sats as network nodes… an encouragingly frugal solution. And talking of frugal, if you’re planning to be in the first wave of outward migrations, you might want to snap up some cheap kit. Two used Soviet space-suits, one (presumably) careful owner each