If you see the force of vacuum demonstrated in this video, statistically the astronaut's suits had to fail at some point. No videos of vacuum chambers and astronaut suits are to be found.
I'm just over here trying to find experiments demonstrating high pressure next to low pressure without a physical barrier 🤷♂️ **spoiler alert** No such experiment exist
Not sure how that would work. There would be continuous movement from H to L pressure so the high pressure could never build up. Interesting idea though.
@MisterGazda That's my point... There is not one demonstration that can produce that result yet they say our atmosphere is next to the vacuum of space. And I'm sorry, but a gradient is not suitable or reasonable explanation
@@cymaticsmoke7658but the atmosphere isn't a physical barrier, is it? Also doesn't the Earths rotation and gravity act upon the molecules pulling them back in unless it reaches escape velocity ( not sure if that's the right verbage)? Honestly don't know for sure but that is what came to mind when I read your post. Also I have no degree or background just a dude asking questions trying to learn Edit, I see now you said without a physical barrier. Misread it but not taking it down because I still want to know about the second half.
If he'd started with the empty water bottle at 14.7 psi (not crushed) you'd have seen the bottle explode just like a spacesuit or a spaceship would if they were in the 10 to the negative 17 TORR strength of vacuum in outer space. (a very weak vacuum is used in the video experiment)
@MisterGazda Also due to angular resolution it would be much too small to see... They claim the ISS to be 250 Miles up and to be roughly the length of a football field, yet you cannot see a passenger jet at 7 Miles up