this post was submitted on 01 Jun 2024
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I distinctly remember growing up hearing there's not even a .01% margin for error on spacecraft. That they must be so durable to withstand the conditions of leaving/reentry and the shuddering vibrations. I realize it's different, but the big fear is always having another Challenger. Challenger didn't just break up, it exploded into 2 pieces on national television. " teacher going to space" had a TV in every classroom across the country watching it.
Helium seems used in the modern rocket to keep hot gas pipes separate from cold liquid fuel. 3 minutes before launch the system is charged and maintained by ground, just before ignition it's disengaged and the system has to support itself. The helium on board only needs to stay pressurized for the 7 minutes or so it takes before the thrusters are spent, and purged, and that's why they don't view it as an issue. But still sounds like fuckass Boeing being ok gambling with lives while NASA shrugs - again.
Valentina Tereshkova was the first woman in space, orbiting the Earth in a Soviet capsule in 1963.
Sally Ride was the first American woman in space, as a part of STS-7 in 1983.
The Challenger Disaster took place during STS-51-L in 1986.
Christa McAuliffe, who was chosen as part of NASA's Teacher in Space Project, was never a nominee for any "first woman in space" acknowledgements.
Didn't mean to be so incorrect (off by 23 years) there was some kind of accolade for her, maybe it was just being a teacher? I'll fix the post tho
First civilian
The way that the NASA program worked was that failure was expected and redundancies were added where they could. NASA program engineers knew that any failure could be a PR nightmare and would result in their funding being cut.
Their margin for error was small but because error-handling was built into the system.
If only that philosophy existed today.
NASA landed on the moon with 1960’s technology, not because it was easy in the 60’s, but because every single aspect of the mission was planned, tested, rehearsed, and made as simple as possible where it couldn’t have a redundancy. The only time something went really wrong was when a faulty tank exploded on Apollo 13, but due to having an entirely separate craft in the form of the lander attached, the astronauts were able to ride out the failure all the way around the moon and back to earth. Oh yeah, even the orbit they picked would let the whole spacecraft fly around the moon and come back to earth without having to do any engine burns.
Look at planned missions today. Launch the Human Landing system. Have it sit in space for an unknown amount of time while anywhere from 6 to 12 refueling rockets are launched to refuel the lander. Relight lander engines in earth orbit, go to moon, relight engines again to orbit the moon. Launch the Orion spacecraft with crew on board, this also must burns its engines once at the moon to enter lunar orbit. Rendezvous and dock with the HLS, transfer crew and supplies over. Undock Orion, relight HLS engines for a 4th time to deorbit and land HLS. Use an elevator to get from HLS to the lunar surface for the next week or so. Board the HLS, which needed at least 6 refueling tankers full of cryogenic fuel to get to the moon and has now been sitting on the 200 degree lunar surface for a week, and light the engines a 5th time to take off and enter lunar orbit. Rendezvous with Orion, and return home. NASA has demonstrated that Orion can do the mission. But HLS has not even shown the technical capability of doing this. Its engines have never been relit in space, it has never sat in space for a week to see what happens to the engines. The entire interior isn’t even built yet and NASA is just using a 9 meter steel circle to train astronauts on the airlock section because no one knows what it will look like.
This mission couldn’t be more complicated if you tried. Apollo needed a total of 1 engine relight on the transfer stage, and 2 engine relights on the command module: one to enter lunar orbit, and one to leave and return to earth. The lander used pressure fed engines that only needed to work once each. One engine got them from orbit to the surface, one got them from the surface to orbit. If the Ascent engine didn’t work, NASA had plans for everything from literally jump starting it with the descent module’s batteries like it’s a dead car, to having an astronaut use bolt cutters to cut the safety pins on the engine so the valves can be manually opened.
If your car doesn’t start in the morning, you might call off work and get it towed to a mechanic. What do you do when you’re trying to leave the moon, and your rocket engines won’t light because they’ve been sitting in space for almost 2 weeks? The nearest rocket engineer is 240,000 miles away back on earth, and so are all the spare parts. And what do you do if only some of those engines light, and the others either don’t or explode while you’re on a suborbital trajectory. Complexity kills on harsh environments. Space is one of the harshest environment we’ve ever been in, so things need to be as simple as possible and known to work.
The philosophy still exists today at NASA proper.
Blue Origin and SpaceX don't need to have that philosophy. Because their owners are having a dick measuring contest and have literal billions to literally burn.
The budget constraints on NASA during the Apollo missions made success a requirement. They couldn't afford to waste money or even look like they are wasting money. Even early tests where NASA rockets were burning and exploding they had to justify to Congress that they were learning.
It helped that the "red scare" kept the public interested in space exploration because it was about beating the Soviet Union.
But when Blue Origin and SpaceX have to answer to just a billionaire, they can get away with failure after failure. It's probably cheaper for them.
If it really did, then nasa would not have committed to this hare brained scheme of musk’s.
The fact that the SpaceX proposal was accepted by an interim director who then went to work at SpaceX 6 months later, and no one has investigated this or challenged the acceptance of this contract tells me that safety is clearly not the priority. If safety was the priority, the new director would have looked at the current proposal and demanded a renegotiation or reconsideration.
I think you are forgetting about Apollo 1 in the list of times when things went wrong during the Apollo era.
The day the Challenger blew up was the day I stopped wanting to be an astronaut when I grew up.
I can just imagine you sitting there with a little astronaut helmet on, eating astronaut ice cream, and drinking Tang while watching the Challenger go up. Just slowly taking off your helmet, pouring out your tang, and chunking the astronaut ice cream in the dumpster. Then little InternetUser2012 just kind of saying to themself, "Yeah I don't know what I was thinking. That shit is WAY more dangerous than I thought!"
In fairness, just reading about the Challenger also made me do about the same thing when I was a kid. I thought going to space was about the coolest thing I could think of to do. Then when I was in the like the 3rd or 4th grade I read about the Challenger and was like, "On second thought, I don't think I want to go to space after all."
Reality sets in and you realize how crazy and insane of a job it actually is. Incredible no doubt for the many who do so safetly but yeah.... not exactly safe.
Challenger’s hardware was flown in out of spec conditions.
Fun fact, there was a real chance of Big Bird (from Sesame Street) being a passenger on challenger when it exploded.
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Fun fact, there was a real chance of Big Bird (from Sesame Street) being a passenger on challenger when it exploded.
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