I will help you with that: if you take all of the air out of a chamber (at sea level), there will just be a force of 1kg/cm2 crushing it. Internal force: 0 External force: 1 (kg/cm2)
If we take a tire with a manometric pressure of 1 bar, the force will be THE SAME, 2 internal - 1 internal, but it will tend to expand it, not compress it. The total force experienced by the chamber is just the difference between the internal and external
That chamber before evacuation has around 15 psi of pressure acting upon the top of it. It also has that pressure from the top of it pushed inside of it toequalise the pressure between the thin glass jar (vacuum chamber).
When you evacuate the air from it, you are now adding to the pressure upon the chamber by pushing the air inside it back into the atmosphere above it which the glass itself has to try and stop. If only a certain amount of evacuated, the bell jar will hold but will be under extreme pressure. Try and take too much out and that jar will implode, no doubt about it.
It's all about stable equalisation at the start as a push on push of air. Once you change that push, you create an uneven air pressure.
This has to happen in life or we die. Action/reaction at all times.
Scepti please. Pressure doesn't work like that. We are not talking about something we can't prove like gravity, this is simple. If yu take all of the air out of a chamber, it doesn't necessarily have to implode. It is not difficult to make a chamber which can resist a pressure difference of 1 kg/cm2
And as I told you, if we put a tire with an absolute pressure of 2 bar (bar=kg/cm2) in space, it would have the same pressure it would down on earth, and if atmospheric pressure was 3 bar, for example we could put a 5 bar pressure in and it would have again the same relative pressure.
You can't put a tyre in your space, inflated to any pressure. It will simply expand and blow apart. It would do this well before that, anyway.
Think about it.
Try putting that tyre into a vaccum chamber and keep pushing the air out. That tyre will pop, no doubt about it.
It's called free expansion. What does free expansion mean?
Well think of it like this.
When you inflate a tyre, you compress the air in that tyre and to compensate for this, the tyre expands into the atmosphere to cater for the air you took out of it. The atmosphere is pushing back onto that tyre to stop the rubber pushing through it easily.
If you were to lower the atmospheric pressure outside, very low - that tyre has nothing of any pressure to exert against it so it allows the compressed molecules inside of it to expand, with only the wall of the tyre as the holding force, which is now easily overcome by being stretched. In other words, the tyre has no helping hand to stop it from simply expanding so it has to bulge out to try and equalise the pressure but can't because it's as near as damn it up against no pressure which means it's free to expand into the atmosphere under no reactive pressure force. BANG. (except we wouldn't hear it)
That's the only way it can equalise the atmosphere is to give up it's air, leaving the lower pressure to act evenly on the rubber type from all sides by now.
If the pressure was super low as in so close to a real vacuum, then the tyre integrity would also be lost because the denser material of the tyre alone without air, will start to expand and be literally taken apart, leaving nothing.
Once nothing is left, it means that you now have a TRUE vacuum where no matter of any description, is.
You can call this a place of suspended animation if you like, as there would be no up, down, horizontal or anything of movement freely within it and nothing to see in it as it's basically non existent to our eyes.
In fantasy world it exists as space with somehow scattered matter and photons and such like, we are told. It's nonsense, it really is.