I’d imagine having the propellant tanks, plumbing, valves and engines survive 10,000Gs without crumpling or deforming to the point of failure is going to be a bit of an issue. Any thin and lightweight structures like foldable solar panels (and their deployment mechanisms) are also going to be tricky.
The centripetal acceleration. It’s going to ramp up fast. There’s also the concern of what’s gonna happen to the payload when it’s released, exits the vacuum chamber and smacks right the fuck into the dense low-level atmosphere at a significant Mach number. Cause that’s what has to happen if the goal is to reduce the need for onboard propellant.
I’d imagine having the propellant tanks, plumbing, valves and engines survive 10,000Gs without crumpling or deforming to the point of failure is going to be a bit of an issue. Any thin and lightweight structures like foldable solar panels (and their deployment mechanisms) are also going to be tricky.
Hmm, but if the acceleration is gradual, shouldn’t it be fine?
Or are you referring to the constant centripetal acceleration felt by the object as it’s spinning?
Man is physics class far away
The centripetal acceleration. It’s going to ramp up fast. There’s also the concern of what’s gonna happen to the payload when it’s released, exits the vacuum chamber and smacks right the fuck into the dense low-level atmosphere at a significant Mach number. Cause that’s what has to happen if the goal is to reduce the need for onboard propellant.