SpaceX's Latest Launch Successful, But Ends With a "Hard Landing" (theverge.com) 129
Eloking writes with this news from The Verge: SpaceX successfully launched its Falcon 9 rocket into space this afternoon, but — as expected — failed to land the vehicle on a drone ship at sea afterward. CEO Elon Musk said the rocket 'landed hard' on the drone ship. The mission requirements made a successful landing unlikely. This was SpaceX's fourth attempt to land the Falcon 9 post-launch on an autonomous drone ship floating in the ocean. All of the previous sea landings failed too, though the third attempt came very close. The company had low hopes of a successful landing from the start of this mission, since the rocket had to send a heavy satellite into a high orbit. That requires a lot of fuel for the launch itself, so there wasn't much fuel left for the rocket's return to Earth and powered landing.
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Oh yeah! Well so what?? "It happened one night" dates back to 1934 and I STILL haven't seen a Slashdot story about it.
Frank Capra gets no respect around here.
Expectations game (Score:5, Funny)
SpaceX and Marco Rubio are duking it out to see who wins "best management of the expectations game." Personally, I'm gonna give "third place win" the edge over "successful failure," but that's just me. Good hustle all around guys!
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Shame my car insurers won't accept I just 'parked it hard'.
Re: Expectations game (Score:3)
Re: Expectations game (Score:5, Interesting)
"When NASA has a launch failure or even a postponement it's nightly news, complete with commentary as to how it's all a waste of money, government can't do things right, etc."
The public expects a government space program to be run with perfect safety, which everyone in the business knows is as unattainable as safe aviation was in 1920, and that it must not do anything "adventurous" like landing a booster, even if the activity is not mission-critical and does not pose any threat to human life. Manned space programs have to go private not because NASA is incompetent, but because only the private sector is allowed to take risks.
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If they (NASA) tried to land boosters and had the same fail rate they'd be accused of being a total waste with calls of how they should get back to expendable rockets because God forbid they should innovate and maybe fail.
If NASA was operating rockets that had the flight success of SpaceX, I doubt they would be accused of total waste like you are stating. This launch was a friggin success that got the payload to the intended destination for crying out loud. What the hell are you talking about?
The failure of the recovery of the lower stage just means an experimental concept using reserve fuel for a stage that otherwise would have just been tossed in the ocean if it wasn't built up for recovery has yet another data point tha
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[...] concepts that many of "those in the 40s, 50s, and 60s who actually laid out how to do this stuff" said couldn't be done in the first place.... yet here is SpaceX actually doing it.
Well, I think part of his argument is that they aren't doing it. How many successful landings have they had on their barge?
That said, my attitude--since this is a private company--is go for it. It's not costing me anything for them to try, they may figure out what would be necessary (more fuel? better engines?) to do it, and I occasionally get to see cool blowey-upey videos.
If it were my tax dollars at work? Tricky call, but I'd probably still be in favor. Many of the above points are still valid and,
Re: Expectations game (Score:5, Insightful)
Well, I think part of his argument is that they aren't doing it. How many successful landings have they had on their barge?
How many successful landings has anybody had from landing a 5 story tall launch vehicle above the Karman Line (aka what is commonly thought of as actually outer space) and then landing that rocket on a barge in the ocean?
I think the level of expectation here is just a tad bit high, where even the notion of calling this a failure is simply absurd.
Very useful engineering data was obtained on this flight, including in the landing. For a rocket that wasn't expected to be recovered at all in this particular case, SpaceX did a pretty good job at trying to recover it, and got some pieces anyway as it actually did land on the barge.... just not as slowly as necessary to get it in one piece.
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How many successful landings has anybody had from landing a 5 story tall launch vehicle above the Karman Line (aka what is commonly thought of as actually outer space) and then landing that rocket on a barge in the ocean?
None. On the other hand, if I say I am going to walk barefoot on water and I fail, I doubt you would be so quick to say that, "Oh, he almost made it that time..."
Don't get me wrong, I don't disagree. SpaceX can try as many times as they like and I'm rooting for them to figure out a way to do it. And they're not necessarily losing anything, since the first stage would be thrown away anyhow. If I were an investor--and I'm not--about the only question I might be asking would be how much are they spending t
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about the only question I might be asking would be how much are they spending to develop this technology and how much money do they think they'll save--in short, what is the ROI for something like this?
Some hard numbers to throw around on something like this:
The current "price" of a Falcon 9 is about $70 million USD. This is how much you would be asked to pay for a standard Falcon 9 if you made a serious inquiry to sales @ spacex.com for a real quote, but that comes before special one time engineering charges or extra features and special handling. That price gets you a rocket, the basic range fees for an ordinary simple LEO payload delivery, and engineering data for a standard SpaceX payload connector.
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How is that different from any other government contractor company?
By the way, SpaceX has plenty of customers that are NOT government.
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You could make the same claims about electric cars & vactrains yet we now have a Musk company that's built & sold 100k battery-only electric cars and has inspired
several Hyperloop-based projects that are getting close to very small-scale 1st testing.
He's not (yet) Ford, Edison, Westinghouse nor Tesla nor is he Tony Stark but he's doing a damn fine job of trying.
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https://www.google.com/search?... [google.com]
We already have Tony Stark :)
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Branson isn't tinkerer or inventor enough to be Tony Stark but he deserves another peerage for that naked model surfing stunt.
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It is in a thread that started out talking about Marco Rubio and then comparing Elon Musk to that same Presidential candidate.
I happen to agree with you though that is one of the most inane and intentionally ignorant posts I've ever read this month and will likely read too. Only the Moon landing deniers can possibly top this for sheer stupidity.
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An I confused?
Yup, but you still don't even have the most ignorant post on even this thread.
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Well, they don't reuse any of the rockets. The only rocket that was claimed to be reusable will gather dust in a museum.
I hoped they will manage this latest recovery, but it seems they are still way too far from reliably recovering a rocket.
Re: Expectations game (Score:5, Insightful)
Right, successfully inserting a communications satellite into geostationary orbit, exactly as contracted to do... Such a fuck up.
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But he didn't land a nearly empty 70 meter rocket on a boat in the middle of the ocean. That makes him a failure. I don't know about you, but I've never once crashed a 70 meter rocket on a boat landing - like most people, my rockets have a perfect record.
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To be fair, your rockets also have a 100% failure record :D
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Another elon musk fuckup
If that is a fuckup, I think he deserves to continue receiving money for many more similar fuckups.
Seriously, what possible standard are you seeking here? The payload got delivered to the proper orbit and the customer themselves [ses.com] were so impressed that they want to send another payload with SpaceX.
Geez, nobody can possibly be pleased.
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This recovery wasn't expected to "succeed" because the mission profile was very different to the other attempts they've been making. This mission was going to geosynchronous orbit which means the recovery would be significantly more difficult. The landing attempt was more about gathering data than hoping for a soft landing. The fact that you didn't know this shows that you're not really qualified to comment on what constitutes success or fuckup.
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The difference is that one of them scores a win in their primaries. Yes, eventually SpaceX has to reliably nail their landings to make it useful but it was a first for this type of mission and they still almost reached their stretch goals while adding yet another successful satellite delivery to the Falcon 9 reliability stats. So apples and oranges, IMHO.
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they still almost reached their stretch goals
I don't think it was "almost." That describes the landing when the first stage touched down then tipped over. This sounds like it was not even close to a soft landing.
. So apples and oranges, IMHO.
Yes, comparing a politician's primary campaign and a rocket launch is definitely "apples and oranges."
Re:Expectations game (Score:4, Interesting)
I don't think it was "almost." That describes the landing when the first stage touched down then tipped over.
There wasn't really much of an expectation it would be successful anyway. The largest problem was that there was very little reserve fuel left in the rocket due to the fact that nearly all of the fuel needed to get the payload delivered to GEO (also due to the heavier payload itself) that it wasn't really thought that the rocket could land.
SpaceX basically made an attempt anyway. Close in this case is that the rocket ran out of fuel when it was close (in proportion) to hovering velocity, but 1%-2% of the original velocity when it was in space was still going way too fast to land gently.
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Didn't Blue Origin already do this a while back anyway? They landed a rocket... Okay, this is at sea, but Blue Origin are reusing their's. It's interesting but seems like Musk is really hyping up second place.
Re:Expectations game (Score:5, Insightful)
Are there still people here who don't know the difference between an orbital and a suborbital rocket? I thought we were past that.
AmiMoJo: the difference between landing a suborbital rocket and landing an orbital rocket is the difference between jumping off your couch and landing on your feet without falling over, and jumping off a ladder and landing on a pogo stick without falling over.
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I couldn't have said it any better, other than landing on that pogo stick on a raft in the middle of a swimming pool.
Besides, it was SpaceX that made the first attempts on that concept too. Blue Origin just took an easier to accomplish task (aka the sub-orbital) and did it earlier.
Or if you want to give credit where it is due, the thanks goes to the DC-X team who was successful in landing a suborbital flight like that.
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Credit for the software architecture goes to John Carmack of Doom fame during his time at Armadillo Aerospace.
They aren't using your fathers autopilot, the new software is hardware agnostic and self adjusting in real time. Falcon 9 is probably the most "intelligent" aircraft to ever fly, capable of managing everything from last second post ignition scrubs to engine out events without help from ground control. SpaceX is hands off minutes before liftoff, they trust their hardware, their crazy smart hardware.
C
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You are 100% correct on every point above, at least based on stuff I have heard about from SpaceX from a variety of sources.
Switching to an internal TCP/IP network for the rocket also saved a tremendous amount of mass for sensor cabling too, which matters a whole ton more when you are talking about the rocket equation.
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It's really mostly about speed and kinetic energy.
The Blue Orbital New Shepard first stage and the Falcon 9 first stage are both suborbital vehicles, but the F9 is faster and way more energetic in terms of energy per unit of mass. Here are some numbers:
New Shepard first stage
Speed at MECO: 1250 m/s
Kinetic energy per kilogram: 0,8 MJ
Falcon 9 first stage, LEO launch
Speed at MECO: 1650 m/s
Kinetic energy per kilogram: 1,4 MJ
Falcon 9 first stage, geostationary launch:
Speed at MECO: 2250 m/s
Kinetic energy per kil
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Basically, if they wanted to make New Shepard comparable, they'd have to get the payload fraction inline by cutting its mass down to, what, a third of its current mass? Then they'd have to eliminate the ability to hover (because the engines need too much thrust in an actual orbital rocket - Falcon 9 shuts down all but one of their engines and throttles it down to 70%, and it's still too much thrust), and have it attempt its landing from a far higher delta V, onto a tiny platform in the ocean.
Yeah, good luc
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Thanks for pointing that out, but you could just say it without the snark you know.
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SpaceX has already landed a rocket on land as well, they just want to get the sea landings down, because not every launch allows landing on land.
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they had already demonstrated low-altitude VTVL with their rockets back in 2013, and they didn't see the value of going higher short of actually launching to orbit.
To be fair, SpaceX lost their test vehicle that they were planning on making those higher altitude test with. Also, SpaceX didn't have the clearance from the FAA to launch rockets any higher at their Texas test facility (being under major airline flight paths sort of makes that a problem), which is why SpaceX was going to be moving the testing to New Mexico instead.
It was just pointless for SpaceX to build another test vehicle when they had already been quite close at recovering a core used for revenue ser
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Elon Musk designs anti-drone rocket (Score:3)
Boom!
ocean landing will not happen during rough seas (Score:3)
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Since you can't call up Poseidon and order some calm seas, this is a problem they're going to have to fix sooner or later.
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Threaded conversations are fun. Since you didn't quote the original, your use of this as a pronoun refers to having to figure out how to call up Poseidon and order some calm seas.
Sir, your ideas are intriguing to me and I wish to subscribe to your newsletter. I wonder if we can get a Federal grant for research efforts into replicating Triton's conch horn [wikipedia.org]?
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A deep keel would help with stability. Since their ships are barges, I assume they have no keels. When I was a Marine, I spent quite a bit of time on amphibious ships (aka "gators") which also have no keels, so they can get in close to the shore. They rolled a lot in rough seas, and I spent many days puking over the railing.
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Since you can't call up Poseidon and order some calm seas
wow, this reminds me Poseidon is a god and not a trademark name of Lockheed.
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About the only issue I can see, from a commercial point-of-view, is that those delays may mean I have to wait for my satellite to be operational. You need to have "perfect" weather now in two places across the globe.
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Satellites take years to develop, and sometimes sit on a shelf for years more before they get a launch slot. Waiting a few days/weeks for "perfect" weather is nothing compared to that. I imagine launch customers look at the criteria in the following order, First that their satellite makes it to orbit, secondly that it is done so as cheaply as possible, and a distant third that it is launched on time. The only exception might be some interplanetary launches, but in with a properly designed propulsion syst
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Right now, both of the barges have horizontal thrusters that will keep the barges in 1 place. In that regard, it makes much easier for the craft to come down. However, the barges do not have vertical thrusters, so, they will pitch and roll in the same location. Without these, it is going to be impossible for these to land on the barge during heavy seas such as what was seen. On a calmer day, with say 1 m waves and under, the stages will do just fine.
If the ship itself is stationary in the horizontal plane then all they really need to do is to make sure the platform on to of the ship is horizontal and not moving in the z-axis.
They could probably mount the platform on top of some actuators that could compensate for the motion in the z-axis.
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On the Reddit spacex forum, the moderators aren't allowing posts with back-of-napkin engineering like this any longer. You need to present the math. They are doing that because we've heard all of the suggestions before and we're totally bored with them. Nets. Moving platforms. Big foam yonis. A big crane that grabs the rocket really fast. Giant baseball gloves.
One would hope the rocket itself could handle up-and-down motion of the barge. It has a radar altimeter and a computer.
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Your idea should be fairly easy to do the math on, if you have the data on the Merlin engine. Can the Merlin engine ramp up thrust fast enough to compensate for a rising ocean wave at the last moment? I doubt that data is publicly available, thought.
If you had data on the weight distribution of the first stage and the mechanical characteristics of the landing legs you could also run simulations to see if the stage would tip over and fall in heavy seas after a successful landing. Again, I doubt you can get t
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Right now, both of the barges have horizontal thrusters that will keep the barges in 1 place. In that regard, it makes much easier for the craft to come down. However, the barges do not have vertical thrusters, so, they will pitch and roll in the same location. Without these, it is going to be impossible for these to land on the barge during heavy seas such as what was seen. On a calmer day, with say 1 m waves and under, the stages will do just fine.
Heavy seas and heavy winds tend to go together, the main issue is that you're bringing down a huge, mostly empty cylinder that'll get caught by the wind. If they can compensate for that they certainly can compensate for a pitching/rolling surface. It's been pretty clear from past failures that it's the rocket failing to make a good touchdown, not the ship acting up. Including the one where the landing leg didn't lock. Until SpaceX start showing footage of rockets coming down so soft they "should have" lande
Re:ocean landing will not happen during rough seas (Score:4, Informative)
The challenge here for SpaceX is that a single engine can not throttle down enough to hover the empty booster. That's why they call it "hoverslam", if the engine stayed on the rocket would bounce back up. There would be a lot more room for error correction if that was the case.
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Hoverslam is certainly a challenge, but even if they could throttle the engines to arbitrarily low levels they would still probably use a similar descent profile. It's inefficient to hover or come in gently - the best possible (read: most efficient) descent is the "suicide burn", where you wait until the last millisecond and then go full thrust. So, even if they didn't have to hoverslam because of throttling constraints, they would probably still do it to save fuel.
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However, if I were musk, the last thing that I would do is tell the world exactly what is wrong and how we solved it.
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It reminds me a little bit of an ill-fated stunt on the ill-fated program "Stunt Junkies" where a guy wanted to jump a motorcycle from one barge to another. Caught enough of a vertical difference between the barges to barely but completely overshoot his landing ramp, landed horizontal, and broke a bunch of bones in his back. Touchy stuff on a relatively simple trajectory.
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I still think, that the future holds a permanent landing pad structure built in the ocean. There are parts of the sea floor in the right area that a significantly shallower than some of the depths oil platforms operate at.
Whether this happens or not will be down to how re-usable the rockets are of course. But if they, for example, allow a 75% cost reduction, then the economics of building a platform for recovery are probably there.
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This is problematical, because it freezes a whole bunch of parameters. It means you can't aim for your orbit, you have to aim for your re-entry destination instead. Orbital inclination, speed, and the length of the burn must be exactly what is necessary to hit that platform. Especially for high-delta-V missions like this last one, where there isn't enough fuel for a boost-back burn and the barge was 600 kM downrange.
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You know the stage does course corrections after separation right? The barge doesn't just happen to be sitting where the stage will land by default. I suspect that at the speed and altitude that separation occurs there is a significant arc the rocket can land in with marginal difference in fuel use. The fins alone will give significant steering capabilities.
Yes for some launches, such as this one, the amount of available fuel will be extremely limited and you may decide to use a barge in that instance bec
Re: ocean landing will not happen during rough sea (Score:2)
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I'm not talking about boosting back to the starting point. Also SES-9 had less fuel than the original mission spec because Space X punted the satellite out a lot further than the original plan, it would be a prime candidate to remain a barge landing or just a rocket you don't even try to catch. Ideally it would be the xth launch for that particular first stage where the rocket cost was already well and truly covered.
Also one has to assume that rockets will get more powerful as they develop meaning a wider
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I think SpaceX will sell a lot more geostationary transfer orbit missions now. They've shown that they can do it with a pretty heavy payload: 5300 kg, and they delivered 1300 km greater apogee than promised.
Your cost figure for building a recovery platform is for one of them. So, suppose that one would work for GTO on F9. To limit the delta-V needed for recovery, you'd probably need another for GTO on F9H center stage, because it gets a lot higher and further downrange, one for LEO insertions that can't ret
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I could be very wrong, but I thought polar launches had a potential land landing site. As for the multiple landing points, I wouldn't initially try to recover something like the most recent launch. Not enough fuel left for control and it is at the maximum end of the range spectrum. Also who knows about the center stage, I was only thinking about the first stage.
As for the differences between ISS launch and LEO etc, how much difference is there between them at the point of stage 1 separation? (I genuinel
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San Nicolas Island, California, is an offshore navy landing strip which I've speculated about but I've not seen any official word from SpaceX. It's about half the distance from LA that they positioned the barge, perhaps uncomfortably close to LA as far as range safety is concerned.
I am dubious that any platform in deep water stays in one piece without continuous attention. The British ones that have survived, more or less, since World War II are in
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I don't believe "vertical thrusters" are practical because you would either be lifting the barge's entire weight into the air or pushing its entire displacement under the water. And it weighs a few hundred tons. You might mean "stabilizers", which are used to prevent rocking in cruise ships and are essentially underwater wings.
It might just be that a slow cyclical 20-foot vertical motion isn't a challenge to landing with radar altimetry. It's not likely to tip the rocket, either, because the empty rocket i
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OTOH, VERTICAL STABILIZERS, or vertical thrusters, can and are used in various systems (namely a number of floating oil rigs). They will not stop the roll and pitch, BUT, they will limit it under the right conditions. And that is what is needed. Basically, the barge needs to have limited pitch.
How about aiming for a pool? (Score:1)
Would there be benefit in trying to land the rocket in a pool of fresh water (or even pure water or some other non-ionizing solution)?
It would at least be less corrosive than salt water, and if they get it out quickly maybe not significantly damaging at all?
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Would there be benefit in trying to land the rocket in a pool of fresh water (or even pure water or some other non-ionizing solution)?
It would at least be less corrosive than salt water, and if they get it out quickly maybe not significantly damaging at all?
Hmmm I don't think it'll work.
First, you'll probably need to stop the rocket at the surface of the water, it'll will have the time to gain a lot of momentum while it enter.
Second, the rocket will now slow down that much if it enter the water vertically, you'll probably have to figure a way to deploy a short of water parachute (which will add some weight).
Thirdly, those rocket are quite fragile so, even if the drag of the water will slow the rocket a bit, I'm quite sure it'll be damaged if it tip over and fa
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They can do a landing on solid ground (or at least they have done it once). Unfortunately, there is no solid ground in the right place for most flights
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Or the 1997 Japanese Space Hotel.. Or the 2016 Solaren space-based solar power array? Space attracts a fair number of snake-oil salesmen, and their true believers.
Re: Why does nobody... (Score:2)
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Its development is still on a slow simmer, the company is still working on it, but it looks like they're trying to develop the SABRE engine for "commercial" (US Air Force and BAE Systems) purposes to raise capital for a push at developing SKYLON.
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Because it will basically never be cheaper than expendable rockets due to the massive R&D and construction costs, and by the time it was flying, it would be competing against other reusable rockets anyhow.
Design flaw (Score:2)
So their design allows them to send heavy loads into orbit but that requires so much fuel that they can't land it afterward.
So either don't launch things heavier than X, or increase the fuel capacity. It's not rocket sci... oh wa
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There was originally supposed to be enough fuel for the landing. The way it works is that they normally put the satellite in a transfer orbit, and then the satellite moves itself to the final orbit, kind of a third stage of the rocket. That's very slow, however. SpaceX was months behind schedule, so they promised to put the satellite into a much closer to final orbit to shave around a month off the required orbital maneuvering. Unfortunately, that used up the extra fuel reserved for landing.
Had they not bee
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Not only were they months behind schedule, but they got SES to switch places with Orbcomm, so that they could return to flight with a simpler mission. So, they really owed SES.
Misses the big advance (Score:2)
The use of superchilled liquid oxygen was a big step for them. Making the fuel denser allows them to put more fuel in the same volume.
Hey! (Score:2)
Flacon Heavy will land two boosters on land (Score:2)
Falcon Heavy [wikipedia.org] will benefit most from the reusable technology. It uses two Falcon 9 first stages as boosters. The flight profiles will allow the two boosters to land back at their landing pad. They also have the option of recovering the central on the drone ship which is harder but we can see that they are getting closer with each attempt.
Isn't There Enough Land to Land On? (Score:1)
I postulate why? Isn't there enough land to land on?
Wasn't the original idea of ending up at sea was so they could soft-splash in the water?
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I postulate why? Isn't there enough land to land on?
No. Or at least not in the right places.
Re: outside US coast no environment important? (Score:2, Funny)
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Re: Possible solution (Score:2)
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Those arms aren't holding the rocket in place (except for the strongback on some launchers which retracts a half-hour or so before launch, typically used for launchers which are transported horizontally then raised into position), they're arms supporting various cables and hoses for supplying ground power, communications, fuel and pressurization. They retract at launch to pull out all the connectors and get them safely away from the vehicle.
Vehicles are usually held down by explosive bolts or retractable c
Re:Why not have a big net (Score:4, Informative)
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The finished the marathon (launch very heavy satellite), they just failed their secondary goal of leading at least one mile of the race (landing on barge).
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"His jump off the Empire State Building was successful, but his secondary goal of landing safely was a disaster."
The Al-Qaeda terrorist successfully jumped off the Empire State Building, fired the RPG into Trump Tower killing Donald Trump, and failed to land successfully into the recovery net at the bottom when he knew he was going to be a martyr anyway.
Yeah, talking about moving goal posts to the level of stupidity.
The purpose of the flight was to deliver a communications satellite to geo-synchronous orbit. Your analogy here is sort of suggesting that actual objective wasn't accomplished.
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Yeah, talking about moving goal posts to the level of stupidity.
The purpose of the flight was to deliver a communications satellite to geo-synchronous orbit. Your analogy here is sort of suggesting that actual objective wasn't accomplished.
So if landing one of these candles isn't an objective, why are they trying to do it?
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It's an objective, but not a primary objective.
Primary objective is to put the satellite in the planned orbit. They accomplished this.
Secondary objective is to recover the rocket via a controlled landing. They did not accomplish this.
A secondary objective is, of course, secondary (to use a tautology). It's something that's nice to have accomplished, but even if it doesn't happen, the event isn't a failure.
If you
Re:Why the drone ship (Score:4, Informative)
It's all about the fuel. On launches that leave enough spare fuel, they actually return the rocket all the way back to a landing pad at the launch site in Florida. They successfully landed the rocket once in that manner. But on launches that require more fuel (to put a heavier payload into a faster orbit), there isn't enough fuel leftover for the burn that would send the rocket back towards the launch site. As a result, they are limited to a relatively ballistic trajectory from the launch site, which means landing somewhere out to sea. The landing destination is actually pretty precise (the drone ship is trying its best to stay stationary, not move to meet the rocket), it's just that it's the only place they have enough fuel to get to.
The first stage of the rocket never reaches orbit: it's still going really really fast, but not orbital velocity. So after the second stage separates, left alone, the first stage would start falling down again downrange and crash into the ocean.
Normally, after separation, the first stage flips itself over and then does a boostback burn to kill the forward momentum, and give it enough momentium backwards to line up its trajectory back towards the launch site. Then later it does a deceleration burn to slow itself down to keep the atmosphere from ripping it apart. And then finally, it does a landing burn for the last segment to slow it to a stop.
On some missions, they don't have the fuel to do that full boostback burn, so they kill some of the forward momentum, but that's it.
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There's not a lot of land downrange of Florida for an equatorial launch, and the first stage can't make it to Africa.
When they launch from California (for eg. a polar orbit) they can land on land, and have successfully done so. When they start launching from Texas they can look at landing in Florida.
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You can't just move the launches to California. The reason why the launches are happening in Florida is because there aren't people to the east of the launch site for hundreds of miles. If the launch was done instead at Vandenberg, the flight path would take the rocket over Santa Barbara and potentially Los Angeles, where not very many people would be happy if pieces of the rocket like what happened during the CRS-7 flight started to fall on their homes.
Moving the launch site to perhaps the Mojave Airport