One Small Step 21
redcliffe writes "Armadillo Aerospace has completed their first successful manned flight. It's only a small hop but it looks very cool."
If entropy is increasing, where is it coming from?
Very Cool. (Score:4, Informative)
I question if the work they are doing there will scale up to a full sized rocket, but that's an armchair question, and they are the ones doing the work, so I'll assume they know what they are doing until I have a rocket scientist say otherwise. :)
Congrats to the Armadillo team. Ad Astra Per Aspera.
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Evan (no SF reference, kinda)
Re:Very Cool. (Score:5, Informative)
The final system they are working on will achieve 100km altitudes (i.e. space) and return to earth with fare-paying passengers. The final launcher will also use a 'bipropellent' such as peroxide and kerosene; that gives almost twice the delta-v per kg of fuel. They've done tests with such motors, and they've achieved good results- good enough performance to achieve their goals I would think.
They're making good progress- though they thought they'd get to this point last year, but they had catalyst issues which I think are a bit better understood now; but they are ahead on other fronts.
Re:Very Cool. (Score:3, Interesting)
So, how much longer before they stop issuing new news, and Carmack suddenly shows up as having a security clearance and rank in the Air Force - but nobody hears anything public from them? (*cough* Rocketplane *cough*). :)
No, I'm not actually a conspiracy theorist - this stuff is honestly hard enough to do without some shadowy supression program. But the tin foil hat writing makes for entertaining reading simply because it does make sense if taken at face value.
Ahem... as long as the Green Party doesn't get in control and we don't enter an Ice Age... wait... aren't we due for one of those?
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Evan
Re:Very Cool. (Score:2)
There's a saying in the aerospace industry:
"Rocket science isn't rocket science."
It's actualy fairly easy to build rockets- a rocket is about the simplest machine you can make, apart from a few valves it has zero moving parts.
The only rocket science bit here is working out a way for it to pay for itself. Carmack thinks he can get fare-paying passengers to foot the bill.
The really nice thing about this is that he can gradually build up to it. Unlike the Space Shuttle which was a cross your fingers and pray, he can gradually go a bit higher and faster each time until he reaches 100km; he can "extend the envelope " as they term it.
As to shadowy suppression; one thing that Carmack is doing is publicising everything he does. This makes it hard for them to shut him down. Everything he writes comes under free speech. He might get gagged if he tries to patent something, but America isn't supposed to be some totalitarian state, so other than that he should be ok.
Re:Very Cool. (Score:1)
And btw, there are moving parts on rockets: the thrust control/vectoring nozzle being the most important...
Re:Very Cool. (Score:2)
Sure, some rockets have moving parts, thrust vectoring is one example, turbopumps are very complicated; but not all rockets have these; you can always make anything more complicated.
Counterexample- Carmack's rocket has no moving parts apart from the valves. He uses 4 jets on the underside to control the attitude- he DOESN'T use thrust vectoring.
Pretty stupid... (Score:2)
Re:Pretty stupid... (Score:2, Interesting)
While I agree doing the test near the curb was apparently dangerous, they had the lander tethered, and I *believe* that it was tethered so that it wouldn't end up on the curb.
IIRC, they do all of the larger flight vehicle engine testing out at the OK "Space Facility"/ bunkers.
It sounds like they'll start doing more work on the tube vehicle now, and testing more for the 4 main engine model now.
Waiting for the weekly update is always exciting... it is a marvel that these guys share their findings so openly when a lot of other groups are fairly close mouthed about their process/progress.
It just makes me nervous... (Score:3, Funny)
My personal favorite quote from the article:
Not sure if that was sarcasm, doe-eyed naivete or what, but it sure made me hella-nervous while I was waiting for the /.ed video feed to load.
Congrats, guys! Precautionary ambulances or not, it takes some big brass balls to do this stuff, much less succeed -- no matter how small the increment.
Good! Re:It just makes me nervous... (Score:2)
Then perhaps you understood it! They took a whole bunch of precautions, but some failures are going to be potentially life threatening. If the computer were to crash- not necessarily because of a software bug, hardware failure for example, then the vehicle can turn upside with the rocket running at full blast (that's what the frame is for and the crash helmet). Or the throttle could stick and send it up 30 feet, and then fall back down (I think they had a parachute) - each of these failure have occured with Carmack's earlier unmanned vehicles by the way... ;-(
It looked incredibly easy; but this was not a lot easier than the actual landing bit of landing on the moon- and that was done under 1/6 earth gravity.
Re:Good! Re:It just makes me nervous... (Score:1)
Re:It just makes me nervous... (Score:3, Funny)
Seems kinda pointless to me.
Experimental rocketry is one of those cases where everyone walks out without a scratch, or you do your crew recovery with an industrial wet-dry vacuum cleaner.
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Yay! for team Armadillo! (Score:1)
Radiation hardening? (Score:3, Interesting)
Seems there are radiation hardened i486 based single board computers. But it is not clear on the site if the PC/104 they are using is one of them.
I suppose they could do initial tests using the cheaper SBCs and then migrate to a radiation hardened one.
Maybe they won't need the computer by the time they reach that height - only critical for the initial phases?
Link.
Re:Radiation hardening? (Score:3, Informative)
No radiation hardening is needed at 100km, I don't think the Space Shuttle worries unduly over it either, and that goes higher.
Re:Radiation hardening? (Score:1)
Not true.
Cosmic rays 'shower' in the atmosphere leading the a peak in charged particle flux well below the ISS.
Re:Radiation hardening? (Score:2)
However, cosmic rays are definitely a long term issue- I believe they can cause cancer over 10-15 years unless you have meter of shielding, but as a short term cause of electronics failing?
You sure? I'm not convinced. (Score:2)
Excerpt from:
http://www.irfl.lu.se/HeliosHome/avionics.
"It is now well known that modern microelectronic devices can suffer from single event effects caused by cosmic radiation neutrons in the atmosphere. The phenomenon has been observed both on ground and at aircraft altitudes. The neutron flux at aircraft altitudes (15 km) is large enough to make the neutron single event effects an issue of reliability in aircraft electronics"
Excerpt from:
http://klabs.org/DEI/References/design_gui
"Even high altitude commercial airliners flying polar routes have shown documented cases of avionics malfunctions due to radiation events"
Link.
Re:You sure? I'm not convinced. (Score:2)
Besides, if you are doing a fly-by-wire system, as most rockets are, you'd want duplication of control computers anyway, to handle other failures. Radiation is the least of your problems; we're not talking about a high probability of failure due to radiation up to 100km. Radiation hardened equipment is not required, for example, they don't use radiation hardened equipment on the ISS.
Re:You sure? I'm not convinced. (Score:2)
Go do a search on google.
As for how often radiation is a problem - it's often enough to be a reliability problem for airplanes at airliner altitudes - as stated in the article I cited.
And often enough to be easily measurable on nonhardened equipment on the ISS:
http://spaceflight.nasa.gov/history/shuttle-mir
To me that indicates the problem is significant and that one should use radiation hardened devices for critical functions. That said, there's no mention of blind testing - comparisons with ground or below tests in heavily shielded areas. But the fact that they are doing the tests indicates they have concerns.
Unless you have real evidence to the contrary I find it very hard to believe they don't use radiation hardened equipment on the ISS, or need such stuff.
Cheerio,
Link.
Re:You sure? I'm not convinced. (Score:2)