Is it true that the buoyancy of an incompressible bathysphere doesn’t change whe…

Is it true that the buoyancy of an incompressible bathysphere doesn’t change when it plunges to great depths in the ocean, even though the pressure exerted on it increases enormously? – AM

A submerged object’s buoyancy (the upward force exerted on it by a fluid) is exactly equal to the weight of the fluid it displaces. In this case, the upward buoyant force on the bathysphere is equal in amount to the weight of the water it displaces. Since the bathysphere is essentially incompressible, it always displaces the same volume of water. And since water is essentially incompressible, that fixed volume of water always weighs the same amount. That’s why the bathysphere experiences a constant upward force on it due to the surrounding water. To sink the bathysphere, they weight it down with heavy metal particles. And to allow the bathysphere to float back up, they release those particles and reduce the bathysphere’s total weight.

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