Quote from: Lee Jay on 12/10/2022 07:41 pmQuote from: sebk on 12/10/2022 04:18 pmI think some posters here (especially Lee Jay) have essentially fallen for: familiar = safe, unfamiliar = unsafeNo.Intrinsically flies - safer than intrinsically falls.Can land in a wide area - safer than must land at a specific spot.SS falls, has to flip under power and then land at a very specific spot - unsafe.Not if they decide to use legs for the crewed starships. Airliners have very questionable safety if they lose all engines. The likely result is loss of airframe and everyone on board, not any different from Starship.
Quote from: sebk on 12/10/2022 04:18 pmI think some posters here (especially Lee Jay) have essentially fallen for: familiar = safe, unfamiliar = unsafeNo.Intrinsically flies - safer than intrinsically falls.Can land in a wide area - safer than must land at a specific spot.SS falls, has to flip under power and then land at a very specific spot - unsafe.
I think some posters here (especially Lee Jay) have essentially fallen for: familiar = safe, unfamiliar = unsafe
Intrinsically flies - safer than intrinsically falls.
Quote from: Robotbeat on 12/10/2022 07:43 pmQuote from: Lee Jay on 12/10/2022 07:41 pmQuote from: sebk on 12/10/2022 04:18 pmI think some posters here (especially Lee Jay) have essentially fallen for: familiar = safe, unfamiliar = unsafeNo.Intrinsically flies - safer than intrinsically falls.Can land in a wide area - safer than must land at a specific spot.SS falls, has to flip under power and then land at a very specific spot - unsafe.Not if they decide to use legs for the crewed starships. Airliners have very questionable safety if they lose all engines. The likely result is loss of airframe and everyone on board, not any different from Starship.22 of 41 listed here (https://en.wikipedia.org/wiki/List_of_airline_flights_that_required_gliding) have 0 fatalities. Only one had all passengers die, and that was because of flight crew incapacitation. 2 more had the pilots die when they were the only ones on board (no passengers). In 35 of those 41 the majority of the people on the plane survived.How survivable do you think a SS landing without engines is? How likely is that to occur compared to airliners? That article found 41 instances since 1953, and some were due to crime. There are currently around 100,000 flights per day of commercial airliners globally.Using legs for crewed starships would probably help a little in those instances where they had a place to land and were off-course or if the wind weren't right for them to be caught.
Quote from: Lee Jay on 12/10/2022 09:22 pmQuote from: Robotbeat on 12/10/2022 07:43 pmQuote from: Lee Jay on 12/10/2022 07:41 pmQuote from: sebk on 12/10/2022 04:18 pmI think some posters here (especially Lee Jay) have essentially fallen for: familiar = safe, unfamiliar = unsafeNo.Intrinsically flies - safer than intrinsically falls.Can land in a wide area - safer than must land at a specific spot.SS falls, has to flip under power and then land at a very specific spot - unsafe.Not if they decide to use legs for the crewed starships. Airliners have very questionable safety if they lose all engines. The likely result is loss of airframe and everyone on board, not any different from Starship.22 of 41 listed here (https://en.wikipedia.org/wiki/List_of_airline_flights_that_required_gliding) have 0 fatalities. Only one had all passengers die, and that was because of flight crew incapacitation. 2 more had the pilots die when they were the only ones on board (no passengers). In 35 of those 41 the majority of the people on the plane survived.How survivable do you think a SS landing without engines is? How likely is that to occur compared to airliners? That article found 41 instances since 1953, and some were due to crime. There are currently around 100,000 flights per day of commercial airliners globally.Using legs for crewed starships would probably help a little in those instances where they had a place to land and were off-course or if the wind weren't right for them to be caught.Just a note I find interesting as a (para)glider pilot - powered aircraft will by design not reach the runway if they lose all engines on final approach...
Quote from: Lee Jay on 12/10/2022 07:41 pmIntrinsically flies - safer than intrinsically falls.Just want to push back a little on this point. The 4 control surfaces on starship are just that - control surfaces. You will probably end up with people dead on dreamchaser for example (just to name a spaceplane) if you lose an elevon (or elevator, not sure what they call them). A plane intrinsically flies, as long as it's controllable. A vehicle like Starship falls, but also needs to be controllable. Not a lot of difference in this regard IMO.
Quote from: sebk on 12/10/2022 04:18 pmI think some posters here (especially Lee Jay) have essentially fallen for: familiar = safe, unfamiliar = unsafeNo.Intrinsically flies - safer than intrinsically falls.
Can land in a wide area - safer than must land at a specific spot.
SS falls, has to flip under power and then land at a very specific spot - unsafe.
Wrong. It could emergency land on any flat patch of land. Contrary to space planes which are runway or bust. But the whole reasoning is fallacious in the first place anyway.
Quote from: Lee Jay on 12/10/2022 07:41 pmQuote from: sebk on 12/10/2022 04:18 pmI think some posters here (especially Lee Jay) have essentially fallen for: familiar = safe, unfamiliar = unsafeNo.Intrinsically flies - safer than intrinsically falls.First, vertically landing F9 first stage has already longer success chain than any space plane returning from space ever had.
Second, by that very logic cars are safer than planes. Intrinsically could stop any time - safer than intrinsically plunges if stopped. "Right?"
Third, you got fixated on the final subsonic part of the entire flight.
So vertically landing vehicles beat space planes hands down.
A vertically landing vehicle needs a small patch of reasonably flat land.
Space plane needs long runway,
Quote from: sebk on 12/10/2022 04:18 pmI think some posters here (especially Lee Jay) have essentially fallen for: familiar = safe, unfamiliar = unsafeI'd put it somewhat differently: unknown = not provably safe.
Quote from: TheRadicalModerate on 12/10/2022 07:59 pmQuote from: sebk on 12/10/2022 04:18 pmI think some posters here (especially Lee Jay) have essentially fallen for: familiar = safe, unfamiliar = unsafeI'd put it somewhat differently: unknown = not provably safe. nknNot provable != Not proven."Not provable" is an assertion that no proof can ever exist. "Not proven" is an assertion that no proof is known.
So (I ask again), which is the better strategy: Wait however long it takes to get the flight heritage, or build an escape system, even if it's just a stopgap? Be careful not to let the perfect be the enemy of the good. You can always get rid of a launch escape system if you have the data to prove that it isn't useful. But missed opportunities are forever.
And "reasonably flat land" isn't as common as you think.and runways are all over the place.
I do not believe that an escape system will ever be a stop gap. If you have one you will never get rid of it, even if it becomes provable harmful.
If you need a stop gap use Dragon on F9. If SS works* eventually that will look ridiculous and may go away. * If SS does not work well enough for human flight without an escape it does not matter, we will not be settling the solar system on it.
Dragon has an escape system because STS did not, and Apollo, Gemini and Mercury did. Mercury had one because rockets were blowing up with regularity at the time.
I'd think that CCP systems have escape because STS was deemed, in retrospect, to have an unacceptably high pLOC (~1/100), and escape for a traditional stack is a pretty cheap way of reducing pLOC.
Quote from: Lee Jay on 12/11/2022 01:12 amAnd "reasonably flat land" isn't as common as you think.and runways are all over the place.Reasonably flat land is at least as common as runwaysRunways are reasonably flat, if you can land a spaceplane you can land vertically.
Quote from: Barley on 12/11/2022 02:57 amQuote from: Lee Jay on 12/11/2022 01:12 amAnd "reasonably flat land" isn't as common as you think.and runways are all over the place.Reasonably flat land is at least as common as runwaysRunways are reasonably flat, if you can land a spaceplane you can land vertically. That assumes you can steer to reasonably flat land. SS has very little cross range. A space plane can steer to a runway because it has enormous cross range - in the 1000km range.
Quote from: Lee Jay on 12/11/2022 02:54 pmQuote from: Barley on 12/11/2022 02:57 amQuote from: Lee Jay on 12/11/2022 01:12 amAnd "reasonably flat land" isn't as common as you think.and runways are all over the place.Reasonably flat land is at least as common as runwaysRunways are reasonably flat, if you can land a spaceplane you can land vertically. That assumes you can steer to reasonably flat land. SS has very little cross range. A space plane can steer to a runway because it has enormous cross range - in the 1000km range.I'm confused. First you say "there are runways all over the place", and now you say you need enormous cross range?
A vertical lander can land on literally any runway including a grass strip.
Quote from: Lee Jay on 12/11/2022 02:54 pmQuote from: Barley on 12/11/2022 02:57 amQuote from: Lee Jay on 12/11/2022 01:12 amAnd "reasonably flat land" isn't as common as you think.and runways are all over the place.Reasonably flat land is at least as common as runwaysRunways are reasonably flat, if you can land a spaceplane you can land vertically. That assumes you can steer to reasonably flat land. SS has very little cross range. A space plane can steer to a runway because it has enormous cross range - in the 1000km range.What is the cross range of SS? It's a lot more than a capsule, but not as good as an airplane.
What is the cross range of SS? It's a lot more than a capsule, but not as good as an airplane.