Sinking ocean liner velocity problem

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The discussion revolves around calculating the average acceleration, distance fallen, and total sinking time of an ocean liner reaching a terminal velocity of 10 m/s after 30 seconds of sinking. To find the average acceleration, the formula V_f = V_i + at is applied, resulting in an acceleration of approximately 0.33 m/s². For the distance fallen, the equation d = V_it + 1/2at² is used, yielding a distance of about 4.95 meters. The total time to sink from the surface to the ocean floor remains to be calculated, with participants seeking guidance on these physics problems. The conversation highlights the challenges of integrating kinematics with fluid mechanics concepts.
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Suppose that the Ocean Liner came to rest at teh surface of the ocean before it started to sink. Due to the resistance of the seawater, the sinking ocean liner then reached a terminal velocity of 10 m/s after falling for 30s.

1.Determine the magnitude "a" of the average acceleration of the ocean liner during this period of time.

2. Assuming the acceleration was constant, calculate the distance "d" below the surface at which the ocean liner reached this terminal velocity.

3. Calculate the time "t" it took the ocean liner to sink from the surface to the bottom of the ocean.

I'd appreciate it if someone would be so kind as to prod me in the right direction, or solve this for me outright.
 
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JasonL said:
Suppose that the Ocean Liner came to rest at teh surface of the ocean before it started to sink. Due to the resistance of the seawater, the sinking ocean liner then reached a terminal velocity of 10 m/s after falling for 30s.

1.Determine the magnitude "a" of the average acceleration of the ocean liner during this period of time.

2. Assuming the acceleration was constant, calculate the distance "d" below the surface at which the ocean liner reached this terminal velocity.

3. Calculate the time "t" it took the ocean liner to sink from the surface to the bottom of the ocean.

I'd appreciate it if someone would be so kind as to prod me in the right direction, or solve this for me outright.
This formula might help for #1:

V_f = V_i + at (where initial velocity is zero, final velocity is 10m/s and time is 30s)

As for #2:

d=V_it + 1/2at^2 (initial velocity is 0, time is 30s)
 
I sure hope it's that simple, our physics teacher has a merry time throwing in Kinematics kinks, within our Fluid mechanics problems...
 

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