call-me-kenneth writes "Soyuz TMA-11, carrying a crew of three returning from the ISS, unexpectedly followed a high-G ballistic re-entry trajectory and ended up landing 300 miles off-course. The crew, including Commander Peggy Whitson and cosmonaut Yuri Malenchenko, are reportedly in good health. Soyuz capsules have previously saved the lives of the crew even after severe malfunctions that might have led to the loss of a less robust vehicle."
The US hasn't had a man-rated traditional stack since the last Apollo in 1976, but the next-gen Ares launcher will be a traditional inline design with the payload at the top. That, plus the lack of enormous asymmetrical control and lifting surfaces required for (some value of) atmospheric flight pretty much eliminates the sources of danger caused by the shuttle design.
OTOH, the somewhat... controversial? decision to make the Ares first stage an adaption of the existing shuttle solid rocket boosters is proving rather problematic, owing to the well-known pogo oscillation modthrusterse problems of SRB [flightglobal.com]s. (that's just a random story that popped up on google, no doubt there are much better overviews elsewhere.) Basically as designed the vehicle would crush the crew to jelly with high frequency +/1 70G vertical oscillations (shortly before the entire stack shakes itself to pieces.) (This wasn't a problem on the shuttle because there are two SRBs coupled through the external tank.)
Anyway, in a few years' time we'll be able to start comparing the safety of like with like.
No-one outside the space geek community seems to have noticed, but the Ariane-V launched ATV cargo vessel (payload: ~20 tons) has now launched human flight-rated hardware (the ATV, now docked to ISS), albeit without humans in it when it went off. I suspect there are some interesting things being doodled on napkins at cafes and bars all over Darmstadt.
With the Dollar getting so low (I won't go into the politics of it) even Walmart is getting expensive.
I think what is happening is goods from China are price correcting. If you think Wal-mart is getting expensive, maybe you should try shopping there on the pay scale of the people who make the clothes you are buying. For many years now the Yuan has been kept artificially low, giving China a strong advantage in international trading. They kept their currency values (read labor cost) low by buying up US debt, which kept the dollar high, Japan may have done the same thing. [treas.gov] In effect, Asia has been subsidizing US consumerism for decades. So the western world moved a huge amount of their manufacturing to China. In 2005 China stopped their policy of keeping the Yuan fixed at 8.28 yuan to the dollar, now it's up to 7 yuan to the dollar so everything made in China costs 18% more. China still maintains some trade advantage as they now have a much better manufacturing infrastructure and labor pool, but the now rising yuan is going to slingshot the standard of living in China up to that of the western world in short order. That means that "Made in China" is soon going to cost just as much as "Made in the USA". Which really just means that the people making it are getting paid a fair living wage, and the item actually costs what it is worth.
This is one of the reasons that material/websites are listed as inaccurate sources of data. Rounding is good when you are talking about 1.300056000 billion dollars as 1.3billion. But in the case of simple math that the reader can do on their own rather quickly, it is imprudent to do any rounding.
A professional news reporter would know that there have been trouble with the US space program regarding conversions to and from metric units. Therefore it is professionally prudent to make sure you are not lumped in with the same idiots who made those mistakes.
It's not that hard, really. Such things are the stuff of journalism classes from the 50's or sooner. How not to look like an idiot when reporting the news!
Very often, especially in American news reporting, you'll see an exact unit converted from a previously-rounded metric figure. To make up an example: "Witnesses said the flames from the fuel tanker crash reached between 328 feet [google.com] to 656 feet [google.com] in the air." Of course, the source they are quoting said "100-200 meters". It kinda sucks because it implies a level of precision that wasn't ever there.
I was actually agreeing with you, implying that if you think that journalists have learned these things, then you couldn't possibly be from America, as American journalism has none of these things. Obviously, you missed the joke, and so did the mods, who gave me -1 flamebait:(
I shall endeavour to make my humour more obvious from now on. Knock knock...
Story submitter here... I used 300 miles because the NASA press release (the second link in the story) says:
"The landing was approximately 295 miles from the expected landing site"
...which I rounded to 300 to try to make the story sound more exciting than it really is, just in order to flatter my inadequate sense of identity and self-esteem. Little did I reckon on the elite mental arithmetic of the Slashdot readership! I hang my head in shame.
There is an interesting article [space.gc.ca], written by a Canadian, in which he discusses the manual descent training that he received as part of cosmonaut training. Apparently, one of the back up computer systems is your brain itself (i.e. full manual control or renentry with analog controls and instruments). Queue the Soviet Russia jokes now...In Soviet Russia the re-entry computer is YOU!
From TA: "Under nominal end-of-mission situations, an automatic re-entry system will return the Soyuz vehicle and crew from space safely back to the ground. However, the crew must be familiar with the several backup modes that exist in instances when the automatic system fails. One of the backup re-entry modes is the crew themselves! For certain hardware and software malfunctions, the crew will be required to manually fly the Soyuz back to Earth through the atmosphere."
But at 10G, the crew's probably not going to be conscious to operated that manual system. 10G is enough to cause G-induced loss of consciousness (GLOC) in anyone, even physically fit, properly trained, and prepared personnel. Even fighter aircraft, where the pilot is in a properly reclined position and is wearing a g-suit, limit maneuvering to 9g, because after that, that pilot's asleep.
I would think that once you're experiencing 10G, your course has already been set. It is a space capsule, not a maneuverable atmospheric vehicle. The only control I could imagine is the decent burn, just prior to "falling out" of orbit. Once that happens, it is like going over the hump on a roller coaster, gravity takes over from there.
I agree, but I think that operating the craft "manually" is overstated. I would think that things like the retro ("soft" landing) rockets and the parachutes would be operated automatically. Not only automatically, but I would bet that the cosmonauts wouldn't be able to activate them if they wanted to. Especially since the landing rockets are supposed to fire 1 meter off the ground. If it lost battery power, I'm sure they are screwed regardless.
And according to this: http://www.jamesoberg.com/soyuz.html [jamesoberg.com] the crew has no control over the parachute deployment. (This is written in entry 6 B under "Special Questions)
But at 10G, the crew's probably not going to be conscious to operated that manual system. 10G is enough to cause G-induced loss of consciousness (GLOC) in anyone, even physically fit, properly trained, and prepared personnel. Even fighter aircraft, where the pilot is in a properly reclined position and is wearing a g-suit, limit maneuvering to 9g, because after that, that pilot's asleep.
In an aircraft, the pilot's head is necessarily somewhat higher than the rest of his body so that he can see outside, especially forward. That's why high G's result in a loss of blood flow to the brain.
An astronaut doesn't have that limitation. I wouldn't be surprised if their seating position makes them less vulnerable to GLOC than a pilot.
I would also think that having just spent some time in a much less than 1 G environment, that the 10G is even more severe by relativity. Aren't the astronauts a bit wobbly when they return to a normal G load?
Ballistic reentry like this is still under computer control. Manual reentry is for an even-worse condition Soyuz. IIRC ballistic reentry is for off-nominal or main computer crashing. Article says they altered course before reentry without telling MCC so they were either having trouble or screwing around. This is another testament to Soyuz robustness - still the safest spacecraft around.
by Anonymous Coward
on Saturday April 19 2008, @12:15PM (#23128320)
Alan Shepard hit over 11g during re-entry, and he didn't pass out and could still hit switches. The early astronauts training- had them routinely hitting 10g or more and they didn't pass out.
There's a difference between the eyes-down load on a fighter pilot sitting in an ejection seat (even the semi-reclining versions, which aren't really very reclined) and the eyes-in loading on a astronaut laying on their back. The main difference is that the person on their back isn't having their blood trying to fill their boots when the Gs strike like the person sitting in a chair.
The two don't really compare. I'd advise you to do a little research before trying to make that case.
The fact that they survived the experience is amazing. Say what you want about Soviet technology, this was a very, very neat trick.
When it comes to Soviet technology only one thing needs to be pointed out: This brings the re-entry failure rate of the current mark of Soyuz to 20% and trending upwards. (This report [jamesoberg.com] on Soyuz landing safety with the older marks is sobering reading.)
This is incorrect. The reentry was successful. Using a fallback mode is not a failure of reentry, it is a failure of the primary mode of reentry. For example, burning up in the atmosphere or "lithobraking" (slowing down only when you leave a smoking crater in the ground) are failures of reentry. Reading through Oberg's report, he indicates that there were few actual reentry failures and most of these occured early in the program. Further you seem to be counting things like a capsule landing on its side as a "failure". I'm not interested in playing semantics games with the several posters here who claim otherwise. But a failure in a reentry system isn't automatically a failure in the process of reentry. The capsule and crew arrived intact. In my book, that makes the reentry successful no matter how many systems failed on the way down.
The last fatality was in 1971 with a much older version of the spacecraft.
Saying that Soyuz is no good is like saying that Linux is no good because the 2.2 kernel sucked.
Soyuz is a $#*#*ing remarkable spacecraft. Its reentry mechanism might not be the most elegant, but is certainly the most robust, and has proven able to get the crew back even after every other system has failed.
Since the last fatality in 1971, Soyuz cosmonauts have survived two booster failures -- one in which the booster wildly deviated off-course, and another in which the rocket exploded on the pad with the capsule still attached.
To contrast, the Space Shuttle was destroyed by a piece of foam, and must follow its landing procedure to a T in order for the crew to have even a remote chance of survival.
The fact that they survived the experience is amazing. Say what you want about Soviet technology, this was a very, very neat trick.
Despite the pointless profanity which makes his comment appear to be a mindless rant, JockTroll actually made a good point in his response to you [slashdot.org].
He's right, there's nothing amazing about the Soyuz surviving a ballistic re-entry, since that's what it was designed to do. This isn't the shuttle we're talking about - you can't compare the two. It's like saying that it's amazing that a 747 can continue flying with one broken engine, while a Cesna can't. You'd be comparing two completely different things.
Mr Perminov said the craft followed the back-up landing plan, a so-called "ballistic re-entry" - a plunge with an uncontrollable, steep trajectory
He said the crew missed the target because they changed their landing plan at the last minute without telling mission control.
Astronauts don't just don't go changing re-entry profiles willy-nilly. If they did it, there was a reason they needed to.
Remember the collision between the Progress supply ship and Mir during the manual docking? The first thing the Soviets did was blame it on the Russian cosmonaut. It turned out the whole operation was poorly planned, rehearsed and was an accident waiting to happen.
There's a lot more to this story than we've heard yet.
Yep; Switching to a Ballistic trajectory would tend to make you fall short of your target and land early; yet they overshot by almost 300 miles and landed 20 minutes late.
There had to be a failure that caused them to spend too much time in the upper atmosphere, not losing momentum quickly enough. Once they realized they were overshooting they must have switched to plan B.... and without a time consuming chat with ground control.
Wow. Stories like this remind me of the huge BALLS it takes to strap yourself onto a rocket and fly straight into orbit, and then come back down again. We like to think that technology has progressed so far that things like space travel are safe, and to a large extent it is. But with the shear number of things that can go wrong and the calculations that have to be *just so* in order to get back safely, I am seriously humbled to remember that astronauts are still explorers, and, frankly, still Heroes to mankind. Let's not forget it.
A capusle can "sort of fly" during reentry. You can use thrusters to change the attitude of the craft which changes the direction. This requires guidance. You usally use this because it's less stressful on the crew and you have pretty good accuracy. The ballistic trajectory is just like you said. Uncontrolled so you fall like a rock. So you spend less time slowing down in the upper atmosphere. You get to the thicker atmosphere sooner and when you do you are going faster which causes very high G deceleration. Not fun but the craft is designed to do it.
basically that's correct. "ballistic trajectory" means there is no course correction/adjustment/maintenance going on during the trip. Like firing a mortar, you initially set the angle and power, and fire it. If your math was good, it lands where you wanted it to. "ballistics" (or "dumb firing") more commonly refers to munitions firing. He said the crew missed the target because they changed their landing plan at the last minute without telling mission control.
Well, slightly higher in the wikipedia page referenced is a section on accidents [wikipedia.org]. Count the number there. I think the most infamous was Soyuz 11 [wikipedia.org], where the interior was vented to space.
It's rather a case of "we make them rugged, 'cause we got a lot of other problems we have to overcome."
This is a statistical dead heat. There is simply not a big enough sample size to distinguish between a 1.75% and a 2.02% fatality rate. And the "who had an accident more recently" does not establish it either.
Both are good systems, each has respective advantages (simplicity and low-cost vs. a lot of on-orbit assembly and payload capability). It's good the world has both, and we may never know which would be safer with infinite flights.
"less robust" (Score:3, Insightful)
Re:"less robust" (Score:5, Interesting)
The US hasn't had a man-rated traditional stack since the last Apollo in 1976, but the next-gen Ares launcher will be a traditional inline design with the payload at the top. That, plus the lack of enormous asymmetrical control and lifting surfaces required for (some value of) atmospheric flight pretty much eliminates the sources of danger caused by the shuttle design.
OTOH, the somewhat... controversial? decision to make the Ares first stage an adaption of the existing shuttle solid rocket boosters is proving rather problematic, owing to the well-known pogo oscillation modthrusterse problems of SRB [flightglobal.com]s. (that's just a random story that popped up on google, no doubt there are much better overviews elsewhere.) Basically as designed the vehicle would crush the crew to jelly with high frequency +/1 70G vertical oscillations (shortly before the entire stack shakes itself to pieces.) (This wasn't a problem on the shuttle because there are two SRBs coupled through the external tank.)
Anyway, in a few years' time we'll be able to start comparing the safety of like with like.
No-one outside the space geek community seems to have noticed, but the Ariane-V launched ATV cargo vessel (payload: ~20 tons) has now launched human flight-rated hardware (the ATV, now docked to ISS), albeit without humans in it when it went off. I suspect there are some interesting things being doodled on napkins at cafes and bars all over Darmstadt.
Parent
Re:China (Score:5, Insightful)
I think what is happening is goods from China are price correcting. If you think Wal-mart is getting expensive, maybe you should try shopping there on the pay scale of the people who make the clothes you are buying. For many years now the Yuan has been kept artificially low, giving China a strong advantage in international trading. They kept their currency values (read labor cost) low by buying up US debt, which kept the dollar high, Japan may have done the same thing. [treas.gov] In effect, Asia has been subsidizing US consumerism for decades. So the western world moved a huge amount of their manufacturing to China. In 2005 China stopped their policy of keeping the Yuan fixed at 8.28 yuan to the dollar, now it's up to 7 yuan to the dollar so everything made in China costs 18% more. China still maintains some trade advantage as they now have a much better manufacturing infrastructure and labor pool, but the now rising yuan is going to slingshot the standard of living in China up to that of the western world in short order. That means that "Made in China" is soon going to cost just as much as "Made in the USA". Which really just means that the people making it are getting paid a fair living wage, and the item actually costs what it is worth.
Parent
How far exactly? (Score:5, Funny)
Perhaps the calculations were done by the same person who worked out the re-entry trajectory?
Re:How far exactly? (Score:5, Informative)
420km in miles is 260, which gets rounded up to 300 for the Slashdot article.
Parent
sort of off-topic (Score:5, Insightful)
A professional news reporter would know that there have been trouble with the US space program regarding conversions to and from metric units. Therefore it is professionally prudent to make sure you are not lumped in with the same idiots who made those mistakes.
It's not that hard, really. Such things are the stuff of journalism classes from the 50's or sooner. How not to look like an idiot when reporting the news!
Parent
Re:sort of off-topic (Score:4, Insightful)
Parent
Re:sort of off-topic (Score:5, Funny)
You've made an intelligent point without threatening anyone.
That's downright unamerican.
Parent
Re:sort of off-topic (Score:5, Funny)
Parent
Re: (Score:3)
I shall endeavour to make my humour more obvious from now on. Knock knock...
Re:How far exactly? (Score:4, Insightful)
Parent
Re: (Score:3, Insightful)
You're trying to explain significant figures to
Re:How far exactly? (Score:5, Funny)
Parent
Full Manual Re-entry is Possible in Soyuz (Score:5, Interesting)
There is an interesting article [space.gc.ca], written by a Canadian, in which he discusses the manual descent training that he received as part of cosmonaut training. Apparently, one of the back up computer systems is your brain itself (i.e. full manual control or renentry with analog controls and instruments). Queue the Soviet Russia jokes now...In Soviet Russia the re-entry computer is YOU!
From TA: "Under nominal end-of-mission situations, an automatic re-entry system will return the Soyuz vehicle and crew from space safely back to the ground. However, the crew must be familiar with the several backup modes that exist in instances when the automatic system fails. One of the backup re-entry modes is the crew themselves! For certain hardware and software malfunctions, the crew will be required to manually fly the Soyuz back to Earth through the atmosphere."
Re: (Score:3, Informative)
Re:Full Manual Re-entry is Possible in Soyuz (Score:5, Insightful)
Parent
Re:Full Manual Re-entry is Possible in Soyuz (Score:4, Interesting)
Parent
Re:Full Manual Re-entry is Possible in Soyuz (Score:5, Informative)
According to this link: http://www.astronautix.com/flights/mireo23.htm [astronautix.com] the landing rockets failed anyway, which resulted in a hard, but survivable landing.
And according to this: http://www.jamesoberg.com/soyuz.html [jamesoberg.com] the crew has no control over the parachute deployment. (This is written in entry 6 B under "Special Questions)
Parent
Re: (Score:3, Insightful)
But at 10G, the crew's probably not going to be conscious to operated that manual system. 10G is enough to cause G-induced loss of consciousness (GLOC) in anyone, even physically fit, properly trained, and prepared personnel. Even fighter aircraft, where the pilot is in a properly reclined position and is wearing a g-suit, limit maneuvering to 9g, because after that, that pilot's asleep.
In an aircraft, the pilot's head is necessarily somewhat higher than the rest of his body so that he can see outside, especially forward. That's why high G's result in a loss of blood flow to the brain.
An astronaut doesn't have that limitation. I wouldn't be surprised if their seating position makes them less vulnerable to GLOC than a pilot.
Re: (Score:3, Insightful)
Re: (Score:3, Informative)
Heavyside Layers (Score:4, Informative)
There's a difference between the eyes-down load on a fighter pilot sitting in an ejection seat (even the semi-reclining versions, which aren't really very reclined) and the eyes-in loading on a astronaut laying on their back. The main difference is that the person on their back isn't having their blood trying to fill their boots when the Gs strike like the person sitting in a chair.
The two don't really compare. I'd advise you to do a little research before trying to make that case.
Parent
Re:Heavyside Layers (Score:5, Funny)
Parent
Genie in a Bottle (Score:5, Funny)
Horse shoes and hand gernades (Score:3, Funny)
Re: (Score:3, Insightful)
"Any landing you walk away from is a good landing."
Ancient quotation from the early days of airplanes... and still appropriate.
Good to have the cosmonauts back in one piece.
I'm impressed (Score:5, Insightful)
The fact that they survived the experience is amazing. Say what you want about Soviet technology, this was a very, very neat trick.
I'm not impressed. (Score:5, Informative)
When it comes to Soviet technology only one thing needs to be pointed out: This brings the re-entry failure rate of the current mark of Soyuz to 20% and trending upwards. (This report [jamesoberg.com] on Soyuz landing safety with the older marks is sobering reading.)
Parent
Re:I'm not impressed. (Score:5, Insightful)
Parent
Re:I'm not impressed. (Score:5, Insightful)
Parent
Re:I'm not impressed. (Score:4, Interesting)
Saying that Soyuz is no good is like saying that Linux is no good because the 2.2 kernel sucked.
Soyuz is a $#*#*ing remarkable spacecraft. Its reentry mechanism might not be the most elegant, but is certainly the most robust, and has proven able to get the crew back even after every other system has failed.
Since the last fatality in 1971, Soyuz cosmonauts have survived two booster failures -- one in which the booster wildly deviated off-course, and another in which the rocket exploded on the pad with the capsule still attached.
To contrast, the Space Shuttle was destroyed by a piece of foam, and must follow its landing procedure to a T in order for the crew to have even a remote chance of survival.
Parent
Re:I'm impressed (Score:4, Insightful)
He's right, there's nothing amazing about the Soyuz surviving a ballistic re-entry, since that's what it was designed to do. This isn't the shuttle we're talking about - you can't compare the two. It's like saying that it's amazing that a 747 can continue flying with one broken engine, while a Cesna can't. You'd be comparing two completely different things.
Parent
Something is missing from this story... (Score:5, Interesting)
Mr Perminov said the craft followed the back-up landing plan, a so-called "ballistic re-entry" - a plunge with an uncontrollable, steep trajectory
He said the crew missed the target because they changed their landing plan at the last minute without telling mission control.
Astronauts don't just don't go changing re-entry profiles willy-nilly. If they did it, there was a reason they needed to.
Remember the collision between the Progress supply ship and Mir during the manual docking? The first thing the Soviets did was blame it on the Russian cosmonaut. It turned out the whole operation was poorly planned, rehearsed and was an accident waiting to happen.
There's a lot more to this story than we've heard yet.
Re: (Score:3, Informative)
Oblig (Score:3, Insightful)
That's not my department," says Wernher von Braun.
Astronauts. (Score:3, Insightful)
Re:Astronauts. (Score:5, Funny)
Maybe you should say huge nads or something else that's more unisex, considering both of the astronauts in this case were women.
Parent
Re:Astronauts. (Score:4, Funny)
Parent
Re:Ballistic trajectory? (Score:5, Informative)
"He said the crew missed the target because they changed their landing plan at the last minute without telling mission control."
So most likely it was not a steering malfunction.
Parent
Re:Ballistic trajectory? (Score:5, Insightful)
Parent
Re:Ballistic trajectory? (Score:5, Funny)
"Screw you guys, I'm going home."
Parent
Re:Ballistic trajectory? (Score:4, Funny)
Serezha, davai vruchnuyu!!!
Parent
Re:Ballistic trajectory? (Score:5, Funny)
"Nyet Nyet, metric I tell you metric"
Parent
Re:Ballistic trajectory? (Score:5, Informative)
Parent
Re:Ballistic trajectory? (Score:4, Funny)
A jet mechanic friend of mine is fond of the phrase "the glide-ratio of a rock".
Parent
Re:Ballistic trajectory? (Score:4, Funny)
Parent
Re:Ballistic trajectory? (Score:5, Insightful)
It's not really an euphemism. The definition of "ballistic" literally means to fall like a rock.
Parent
Re: (Score:3, Informative)
He said the crew missed the target because they changed their landing plan at the last minute without telling mission control.
Certainly IS scary. You wouldn't expect the a
Re: (Score:3, Informative)
It's rather a case of "we make them rugged, 'cause we got a lot of other problems we have to overcome."
Re:Nice Spin (Score:5, Informative)
http://www.airliners.net/aviation-forums/military/read.main/54404/ [airliners.net]
Soyuz (1967-Present)
Flights: 95
Failures: 4 (2 non-fatal)
Failure Rate: 4.21%
Cosmonauts Flown: 228
Fatalities: 4
Fatality Rate: 1.75%
Shuttle (1981-Present)
Flights: 116
Failures: 3 (1 non-fatal)
Failure Rate: 2.59%
Astronauts Flown: 692
Fatalities: 14
Fatality Rate: 2.02%
This is a statistical dead heat. There is simply not a big enough sample size to distinguish between a 1.75% and a 2.02% fatality rate. And the "who had an accident more recently" does not establish it either.
Both are good systems, each has respective advantages (simplicity and low-cost vs. a lot of on-orbit assembly and payload capability). It's good the world has both, and we may never know which would be safer with infinite flights.
Parent