Solving for Density: Buoyant Force & Force of Gravity

AI Thread Summary
The discussion centers on calculating the density of a floating board using buoyant force and the force of gravity. The user attempts to find the mass of the board by relating it to the volume of water displaced, leading to the equation rhoo vo = m. They calculate the volume of the submerged part and the total volume of the board, ultimately determining the mass of the board to be 120 kg based on the displaced water. The final density calculation yields 333.3 kg/m^3, and the user seeks confirmation on the correctness of their approach. The conversation emphasizes the importance of understanding the relationship between buoyancy and density for floating objects.
Avalanche
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Homework Statement



paddleboard_zpsfa095069.jpg


Homework Equations



density = mass/volume
FB = rhoo vog for a floating object
F = mg

The Attempt at a Solution



Buoyant force = force of gravity due to the board
rhoo vo = m

vo = area*height submerged
vo = 2.4*.05
vo = 0.12 m^3

volume of the board = thickness*area
= 0.15*2.4
= 0.36 m^3

To find the density of the board, I need to know the mass of the board. I tried using the buoyant force of a floating object, but I need the density of the object.

Any help?
 
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For a body to be afloat, the mass of water displaced by its submerged part must be equal to the mass of the entire body. Which you have derived in the form rhoo vo = m. What else do you need to compute the density?
 
I need the mass of the object. How do I find that?

Is rhoo equal to the density of water?
 
I think I may understand where you are confused. You can calculate how much mass is displaced, but you need to consider the full geometry of the board to find its average density.
 
Last edited:
Avalanche said:
Is rhoo equal to the density of water?

What else could that be? See #2 above.
 
Avalanche said:
I need the mass of the object. How do I find that?

Is rhoo equal to the density of water?

You should always start with intuition. Would the plank be floating if its density were equal to that of water?

Does styrofoam float on water? Is it more or less dense than water?
 
voko said:
For a body to be afloat, the mass of water displaced by its submerged part must be equal to the mass of the entire body. Which you have derived in the form rhoo vo = m. What else do you need to compute the density?

So the mass of the board= density of water*volume of water displaced
Because the object is floating, the volume of the water displaced is equal to the volume of the submerged part.
so volume of water displaced = vo = 0.12 m^3

= 1000*0.12
=120 kg

density of boat = m/v

=120/0.36
= 333.3 kg/m^3

Is my thinking correct?
 
Avalanche said:
Is my thinking correct?

Does the solution seem reasonable? How could you check?

Here's a hint. :-)
 

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