I know you're not exactly serious, but to answer anyway: McMurdo isn't near this flight path, it's at New Zealand's longitude (so 2000 miles east of Australia) and much farther south. Perth would be the closest airport for almost all of that flight path.
(Your core point is correct, this trajectory is about as remote as SpaceX can possibly get, even if it's near a small number of flights. Let's not extend NIMBYism to space and ban SpaceX from everywhere.)
This is an interesting article about what is considered the most remote point on earth:
https://www.theatlantic.com/magazine/archive/2024/11/point-n...
A lot of satellite debris is targeted there but of course we cannot expect all space debris to be so controlled and in this case SpaceX went for a region that was quite remote.
But why does SpaceX need so much of that space? It's a massive ocean - drop the satellites somewhere else, or at a time there aren't airlines in the way.
Because small differences early in the trajectory result in large differences later on. Think of driving a trailer backwards and imagine you weren't allowed to do corrections after a certain point.
I don't think there are diversion points, you either keep going to destination or turn around. The A380 is rated for ETOPS-330, that's 5hr30min from a diversion airport.
I believe it's not just that it is able to fly with 1 engine. It's that the probability of a secondary engine failure in that time is below a certain threshold. Most twin engine planes can fly perfectly fine for basically any distance with an engine out, ETOPs provides confidence that the other one won't fail too.
Flying multi-engine aircraft with an engine shut down is a routine training and test maneuver, so these aircraft have all been flown a lot of hours with an engine out. The tricky thing about ETOPS is ensuring very high engine reliability (so that the probability of coincidentally having two engines fail on a flight is low) and avoiding failure modes that would affect both engines at once (one of the reasons for a lot of redundancy in electrical systems).
And while technically different rules, ETOPS in practice gets attached to other requirements for transoceanic flights, so ETOPS aircraft often have additional life rafts and other equipment.
There’s a bunch of regulations, but from looking through them quickly I think they start with a bunch of testing and analysis initially to show a predicted rate under the requirement, and afterwards they look at the real-world rate with a 12-month rolling average.
It is my understanding from a (no-longer-available) MIT OCW aircraft systems design video that these requirements are based on one engine failure on the aircraft, regardless of the number of engines on the aircraft.
ETOPS per se makes no sense for a 4 engine aircraft (the T in the acronym is "twin-engine".) Three- or four-engine aircraft have equivalent engine-out long-range operations ratings, though.
Apparently the acronym can now be read as the blander "ExTended OPerationS", or according to the ICAO all such flights can be referred to as EDTO (Extended Diversion Time Operations", which is less fun to say out loud and loses the joke definition "Engines Turn Or People Swim")
There is a runway (YWKS) on antarctica 'moderately' close to the point where the midpoint of the great circle for that flight is, I'm willing to bet it's used as a diversion point for ETOPS purposes for those flights. It couldn't handle airliners daily, but in an emergency (in summer at least) I bet it could be mobilized just fine.
edit: allegedly YWKS does have a regular A319 service from Australia.
I'm not sure. In the case of 4 engines, it may be 2 is how they certify it. Specifically I think the case where both engines on the same wing fail (as the worst case other that losing 3)
In practice do they normally fly that far between possible landing spots? My understanding is that they try to normally stay within 2 hours of a possible landing spot
does aircraft only operate engine as minimal as possible to save fuel or they burn more if they use fewer engine to having engine work extra because of its weight ?
Yes they’ll use more fuel than running on all engines. They always load the extra fuel that would be required for the maximum flight time with an engine out.
The extra fuel burn is due to the drag from pushing a non-working engine through the air, and from the rudder deflection to counteract the unequal thrust. It’s less of an issue on a four engine aircraft with a single engine out as they can increase thrust on the remaining engine on the side with the engine out.
Extra fuel burn is also required because a twin engine aircraft with an engine out can’t maintain the normal cruising altitude, and the higher you are the more efficient the engines are.
Thrust can’t be reduced much to save fuel because the speed margins at altitude are quite narrow - if they reduce thrust and therefore airspeed they’ll descend.
> It’s less of an issue on a four engine aircraft with a single engine out as they can increase thrust on the remaining engine on the side with the engine out.
Do they also decrease the opposite engine to help with this as well?
Aircraft with disabled flight controls have occasionally steered / maneuvered utilising variable engine thrust alone. A notable instance is UA 232 (1989), Denver Stapleton to Chicago O'Hare, which crashed on landing at Sioux City, Iowa. Despite a nearly completely disabled aircraft and a violent landing, there were 184 survivors of 296 souls, including the pilot Alfred Clair Haynes (he died in 2019, aged 87).
The aircraft, a DC-10, suffered an uncontained fan failure which severed all three hydraulic control systems, disabling virtually all flight control surfaces (elevators, ailerons, rudder), and the pilots (with assistance from a dead-heading pilot/instructor passenger) controlled both horizontal and vertical orientation using engine thrust alone.
I've heard and read numerous times that in simulations of the incident afterwards few or no pilots managed to land the plane. Haynes was an absolute master pilot.
Why would Qantas have the implicit right to the airspace first? Space travel and air travel are both value-added human activities. I can't see why we would always prioritize air travel (particularly in very remote locations like this) over space travel.
It's not space debris, it's the deliberate disposal of the upper stage of the rocket precisely to prevent it from becoming space debris. The time and location of re-entry are planned and controlled. This is not going to crash into your neighborhood (except if you're neighborhood is in certain areas of China, where they they happily dump spent rocket stages on populated areas).
Another way of phrasing the situation is that Quantas _very inconveniently_ chose to put their flight path straight through the projected trajectory of rocket debris.
Oh common?! Do you own the travel path when driving down the highway? No you don't but there are agreed upon and codified rules on right of way that protect your right to safe passage or navigation. Similar convention applies to air space and air travel, look up Annex 2: Rules of the Air by ICAO which outlines right of way principles for air travel
The FAA confirmed that debris fell outside designated areas, temporarily disrupting air traffic and causing several aircraft to divert or delay flights.
depends who's doing it. china, for instance, classifies everything they send up as "military" with the ITU to avoid disclosure. the US is a net positive in the world, so our satellites are too.
china is a tougher one. she has been strongly positive in the past, as well as strongly negative; now she is much closer to negative. net all that i'd say negative overall.
> Is this [SpaceX flight] for the benefit of humanity?
Yes. Much more so than that one weird flight that's "merely profitable for a single company".
> Do we all get a profit sharing check at some point?
Yes, in the form of more space sector jobs, more jobs and economic benefits that come from more kinds of useful stuff being launched to space more often, and eventually - hopefully - more jobs in space and economic benefits coming from that.
That really downplays the amount of collaboration needed to make a flight like this happen. The airplane was designed and built by tons of people in lots of different counties, building on a century of aviation industry knowledge. The amount of work and experience that goes into making a machine that can safely be 5+ hours from a landing site is enormous.
> This is comically common, but because it has SpaceX in the name, it makes headlines.
I once had a flight from Puerto Rico to Chicago delayed because of a (SpaceX) launch at Cape Canaveral that happened exactly within the planned launch window. On the plus side, the flight was delayed just barely enough to be “safe” - we got to watch the second stage separation off in the distance just by looking out the window at whatever the 737 cruising altitude is.
I’d guess that space launches just aren’t numerous enough to bother modifying commercial aviation schedules, so they don’t (SpaceX or not). When it looks like a launch is actually going to happen and not get scrubbed, they clear a hole in the sky and then get on with their day.
Space launches have a significant impact on aviation schedules at Orlando and a massive impact on cruise schedules from Canaveral. There has been significant effort towards tightening the size of the keepout windows in both space and time.
I agree - it is quite funny that it is getting attention. It's like a combination of Elon being on X and getting attention and SEO creating some infinite loop of everything revolving around him. Please stop.
More importantly can someone remind me what warning did the Chinese rockets provide or competitors? Not that that is a standard we should measure against.
Well, some of their chief competitors (i.e. Ariane 5) don't even do a controlled re-entry of their upper stages, so they don't issue warnings at all. They reenter anywhere on the planet at an unannounced random time and place. In a sense SpaceX is a victim of its own success here.
Falcon 9 destroys its upper stages in a controlled manner, in a deliberately chosen re-entry zone (sparsely populated ocean). Ariane 5's cryogenic upper stage can't do this: it's a liquid-hydrogen engine without a relight ability—after it turns off once, you can't reignite it a second time (for a re-entry targeting burn).
Their biggest competitor is China, who likes to drop their boosters on Chinese villages. Understandably, the villagers don't complain about this too loudly.
And with that the total number of rocket flights per year has ramped up due to SpaceX. Same thing applies to Starlink satellites "ruining" the night sky. It was a bit of an issue before, but now that there are thousands of satellites up there from one company, they're making headlines for similar reasons.
Saw them for the first time about a week ago (rural Minnesota) as we were going out to do evening chores. Startled me for a second until I realized what I was seeing.
I've talked to people that live in dark areas and they've never seen anything like the Starlink satellites before. People are definitely after Elon but he really brought that on himself.
Starlink satellites are only visible to the naked eye during specific circumstances for a brief period whole they're being boosted to their final orbit.
I've seen it. It's kind of cool. 8 pale, silent dots in line moving across the sky for like 3 minutes.
I'm sure they've seen airplanes flying at night with brighter lights, and louder noises than what starlink produces, so I'm not sure how this is really a problem.
There aren't commercial airplanes out there. This was at Catalina Island which is ~25 miles off the California coast. There is very little light pollution. I think it's more the fear that the sky will be filled with those. I don't know how long after launch this was but it had been a repeat occurrence for multiple nights at that point.
I have zero problem finding numerous flights passing directly over Catalina island at night, or very close (within 20 miles @ 10k feet, which would be easily visible from the island).
globe.adsbexchange.com -> click the replay button, and then scrub to some random time after sunset in CA. Turn on flight tracks and set the speed to 100x to make the flights easier to identify.
Flights from major airlines coming from Alaska, Asia, and Hawaii seem to frequently fly directly over Catalina at night.
> I'm sure they've seen airplanes flying at night with brighter lights, and louder noises than what starlink produces, so I'm not sure how this is really a problem.
For what its worth planes generally avoid flying through designated dark sky areas.
> they've never seen anything like the Starlink satellites before
By that, do you mean they can't see the starlink satellites now with their eyes, despite the number of them? Or do you mean that before they didn't see anything and now it is a problem and they are seeing things with their naked eyes?
...which result in far less debris making its way down to earth since they commoditised the re-use of launch hardware. Had these launches been performed by ULA or Arianespace or any of the other incumbents there'd be much more debris dropping to the seabed or - in the case of Russian and Chinese launchers - to the desert (Russia) or haphazardly strewn around populated areas (China [1]).
It's impressive how the modern tactic is to turn everyone into a victim. Even the wealthiest person in the world, who also has power even beyond their wealth - even they use the tactic.
> Qantas says it has been forced to delay several of its flights to South Africa at the last minute due to warnings of falling debris from Elon Musk’s SpaceX rockets re-entering Earth.
Amusingly I think it's great that Elon had a very public divorce with Silicon Valley. Otherwise I could easily see this having been titled "Qantas South Africa flights delayed by falling debris from Silicon Valley based SpaceX rocket" for maximum clicks.
The solution here is for Spacex to tighten up their planned reentry corridors. At this point they should have more than enough experience in their ops to narrow down the likely debris field to a narrow strip that can be easily flown around instead of the huge swath of Indian Ocean they'd been allowing for.
It says they had to delay several flights over a period of a few weeks. Starship isn’t flying anywhere near that often. These are routine Falcon 9 flights and they should be able to have very tight windows in time and space.
My reading is that SpaceX was loose with their windows because it’s easier and they didn’t think it mattered in a remote part of the ocean. Now that there’s an actual reason, they’ll probably tighten it up.
No, these are delays for anticipated Starship reentries over the Indian ocean. Falcon 9 doesn't reenter there. They keep on scrubbing and rescheduling the launch, that's why it's been several times in the past few weeks.
Second stage and satellite disposal target is typically Point Nemo in the Pacific Ocean, 2688 kilometers away from the Pitcairn Islands, Easter Islands and Antarctica.
Nobody is flying or sailing at Point Nemo. The keepout zone typically has a massive 1000km diameter, but approximately 0 impact on anybody.
Second stages definitely are getting dropped elsewhere, commonly the southern Indian Ocean, as well. Point Nemo doesn't always or even often line up with the target orbit, and you can't keep second stages in space for extended periods of time, because the propellant needed to deorbit boils off.
Remember that part of the current testing program includes testing whether or not they can reliably relight their engines on orbit in order to do things like a controlled re-entry. Given the nature of that testing I imagine there's very little room for narrowing their re-entry corridors. If the test succeeds they may re-enter earlier and if it fails they'll re-enter later... or laterally different... either way lighting up the engines for the test probably changes the trajectory of the spacecraft.
The one thing they can do is be sure the original trajectory that gets them to space intersects the Earth within some reason so that if things don't go as planned it doesn't go too far afield.
At best this article is a complaint about communication of whether or not a launch is happening. And even that's hard to really do reasonably: weather, maybe a stuck valve during the countdown, maybe a leisure boat close to the launch site enters the exclusion area... all of those things have happened and prompted changes in launch times and many of those things are outside of SpaceX control.
So seems to me you can lock up the airspace on a "just in case" basis with lots of advanced warning but also reserving lots of time that you won't really need in the end... you know... just in case... , or lock it up much less, but at the cost of relatively short notice to others that might want to use it. Either way you'd still get the article protesting... it's just the complaint would be different.
They will be tightening them as the starship program continues. It's just still in a testing stage right now.
I also want to point out SpaceX still does a better job than some competitors (ahem, ariane, which gets a pass because it's the eurocrat's baby therefore must be good)
The solution here is for them to nail landings. This is a temporary problem during testing. Hopefully there will only be one or two more launches that reenter over the Indian Ocean before they start landing the ship at the launch pad instead.
Their last few rentries have been extremely tight, doing simulated landings on the water right next to a prepositioned camera buoy. The position of the buoy is almost certainly less precise than the rocket itself.
Is it typical that anyone gets compensated for a temporary road closure? From what I understand this is one of the safest areas for space debris to re-enter, so likely it's justified and just part of having both spaceflight and aviation industries.
The article doesn't explicitly mention it but this debris will be from spent Falcon 9 upper stages which aren't reusable. The area will continue to be a dumping ground for space junk regardless of Starship, but less of it will be coming from SpaceX.
Sounds like tracking would help. If the re-entry is controlled, why not broadcast transponder info from the reentering parts so they appear on airplane displays? Then they can adjust course, just as they do any other aircraft in their flight path.
The south indian ocean is the re-entry site for the 2nd stage of their next starship flight test, which will (should) re-enter in one piece so the risk of falling debris is certainly not trivial and unfortunately the size of the hazard region is also not trivial.
They've rescheduled a few times now and each time operators flying in this region have to shuffle things around.
My point exactly. Airplanes are big too, and there are existing procedures to avoid collision with marked objects in the sky e.g. other planes.
By listening to the transponder messages which give altitude, GPS location, velocity and call sign you can 'see' the stage as it moves through the air like any other vehicle traffic.
Yes and also, these parts are not made for pristine reentry, it's very likely they'll split up in different parts. How do you make sure every part has a transponder and it doesn't burn up?
The odds of damage are essentially 0 even if there was no diversion. The background risk of a plane crashing with mechanical failures may dwarf this risk.
It's hard to emphasize how comically vast the region described is. Its like... shooting two marbles across Manhattan and colliding.
This is one of the more remote flights humanity operates. What even are the diversion points on this route, McMurdo airfield?
I'm not an Elon shrill but this seems as an ideal place for SpaceX to be re-entering things as they can choose with minimal damage to ecosystems.