5J7XM33IXN4XCQI6B2BB t1_j10yiyn wrote
No, because the force of acceleration is still transmitted through the outer surfaces of the body into the inner ones. Some kind of hydraulic fluid could help distribute the load, but ultimately this is an issue of compression and a pressure gradient forming.
A similar analogy is "magic armor" that is indestructible. If you wear the armor and hold a detonating nuclear bomb, the force of the blast will fling you away and all that will be left is a pile of goop inside the intact armor shell.
Sable-Keech t1_j124fcs wrote
It would help to a certain extent. In water, the acceleration force would translate directly to pressure such that if you accelerate at 1g you would feel the same amount of pressure as you would underwater on Earth.
So assuming you’re under a meter of water onboard the ship, you could easily go up to an acceleration of 40g since then the 1 meter depth would be equivalent to being at 40 meter depth on Earth which is an okay diving depth for recreational divers.
5J7XM33IXN4XCQI6B2BB t1_j13rtdq wrote
This is inaccurate.
The hydrostatic pressure gradient is 40x as extreme, so it's more like being submerged in something 40x as dense, not 40x deeper. For reference, molten lead is only 10x as dense as water.
The buoyant force is equal to your weight, to kee you stationary. No matter the depth, on earth, it's always about 200lb. Under 40g, it would be 8000lb.
Sable-Keech t1_j13sk1u wrote
Huh, I thought acceleration was so similar to gravity as to be virtually indistinguishable.
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