You know like the kind that go on a window or bathroom mirror or on the wall or in the shower. They need the atmosphere pushing down on them to work, right?
You know like the kind that go on a window or bathroom mirror or on the wall or in the shower. They need the atmosphere pushing down on them to work, right?
Phrases I did not expect to think this early in the morning: "what’s the rocket engine of suction cups?”
Velcro, or maybe Van Der Waals force, or maybe whatever the hell makes gauge blocks stick to each other.
I like the gauge block notion. A (quick) search says that it’s a combination of surface tension from the oils they’re coated in, suction (gone for us), and the super flat surfaces slightly exchanging electrons and bonding in close proximity.
I’m a fan of the surface tension angle as the “rocket of suction cups”, since it’s got that “non-binding force” element, where welding or glue feels different, and Velcro feels like a tangle.
It’s “pull-y” where suction is “push-y”.
Now the question is would surface tension grab something in a vacuum the way it does outside of one. I know you’d have water sublimate off, so it’s questionable to me.
In space you have to worry about your materials cold welding, so that might affect how we go about replacing the suction cups.
Wasn’t velrco actually invented by a NASA scientist?
Nvm, just a myth, I guess.
Magnets
[Confused Juggalo Noises]
This is the only correct answer
Gecko skin!
Yes actually!
Selotape? It’d have to be something that sticks on it’s own