A robotic submersible is being lowered into the water. What happens to the buoyant force as the submersible enters the water? Write 2 - 3 sentences explaining your reasoning.

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Andres Canella · Answer 1 · 2020-11-29T06:02:31+0000

Answer:

The buoyant force increases as the submersible enters the water, and it remains constant after the submersible is completely immersed.

Step-by-step explanation:

The buoyant force acting on an object is given by:

$B=\rho_L V_(imm) g$

where

$\rho_L$ is the density of the liquid

V_(imm) is the volume of the object immersed in the liquid

g is the gravitational acceleration

From the formula, we see that as
V_(imm) increases, the buoyant force increases as well. Therefore, as the submersible is lowered into the water, the buoyant force gradually increases (because the immersed volume increases); however, when the submersible is completely immersed,
V_(imm) no longer changes, so the buoyant force remains constant.

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A robotic submersible is being lowered into the water. What happens to the buoyant force as the submersible enters the water? Write 2 - 3 sentences explaining your reasoning.

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