How Does Placement of Lead Affect the Buoyancy of a Wood Block?

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The discussion focuses on determining the mass of lead required to make a wooden block float with 89% of its volume submerged in water. The block has a mass of 3.84 kg and a density of 598 kg/m³, while lead has a density of 11,300 kg/m³. Calculations reveal that when the lead is placed on top of the wood, approximately 1.874 kg of lead is needed to achieve the desired buoyancy. If the lead is attached below the wood, it also displaces water, affecting the total weight and buoyancy dynamics. The placement of lead impacts the overall buoyancy due to the additional water displacement caused by the submerged lead.
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Homework Statement



A block of wood has a mass of 3.84 kg and a density of 598 kg/m3. It is to be loaded with lead so that it will float in water with 0.89 of its volume immersed. The density of lead is 1.13 104 kg/m3.

a)What mass of lead is needed if the lead is on top of the wood?

b)What mass of lead is needed if the lead is attached below the wood?

Homework Equations


Fb=MG
mg=.89Fb

The Attempt at a Solution


I don't really know where to begin, .89Fb=mg. but I am confused on how to use density of the wood or the lead to help solve the equation? Any ideas on how to start off the problem?
 
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You know that the goal is to have 0.89 of the volume of wood underwater. Why not start by figuring out what the weight of the block of wood is, its volume, and how much of that volume will be below water. From there you should be able to tell what the buoyant force is (due to displaced water). Compare with the weight of the block.
 
d=m/v, so v=m/d.
3.84kg/598kg/m^3=.00642m^3=Vwood
.89v is under water, so the volume of displaced water=.89Vwood.
(density of displaced fluid)(V of displaced fluid)g=buoyancy force
.89*buoyancy force=(Mwood+Mlead)g?
 
tigers4 said:
d=m/v, so v=m/d.
3.84kg/598kg/m^3=.00642m^3=Vwood
.89v is under water, so the volume of displaced water=.89Vwood.
(density of displaced fluid)(V of displaced fluid)g=buoyancy force
.89*buoyancy force=(Mwood+Mlead)g?

...and you were doing so well...

In your final line, why are you multiplying the buoyancy force by 0.89? You've already calculated the buoyancy given that 0.89 of the wood's volume is submersed.

Time to put some numbers to the calculations.

What is the weight of the block (Newtons)?
What is the force due to buoyancy (Newtons)?

Is there a difference? If so, what is it and what's to be done about it?
 
(.89*.00642m^3)*(1000kg/m^3)=(3.84+m)
m=1.874kg

Why would it be different if the lead was on the bottom of the wood?
 
tigers4 said:
(.89*.00642m^3)*(1000kg/m^3)=(3.84+m)
m=1.874kg

Why would it be different if the lead was on the bottom of the wood?

Because when it's below the wood the lead will also displace some water -- essentially it weighs less underwater.
 

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