Calculating Density of a Liquid with Archimedes' Principle

AI Thread Summary
The discussion focuses on calculating the density of a liquid using Archimedes' principle, based on the apparent mass of an aluminum ball submerged in the liquid. The buoyancy force is derived from the difference between the actual mass of the ball and its apparent mass when submerged. Participants clarify that the buoyancy force is calculated correctly, and the mass of the displaced fluid can be determined from this force. The final density of the liquid is calculated to be approximately 1095 kg/m³, with some minor corrections suggested regarding the calculations. Overall, the approach to solving the problem is validated, emphasizing the application of buoyancy principles.
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Homework Statement



It is found that a 3.70-kg aluminum ball has an apparent mass of 2.20 kg when submerged in a particular liquid.
Calculate the density of this liquid in kg/m3.

Homework Equations



Bouyancy force=density*volume*gravity
Volume=mass/density

The Attempt at a Solution



1. Look-up density of Al: density=2.7*10^3 kg/m^3

2. Volume of ball=(mall ball)/(density of ball)=0.00137m^3

3. Bouyancy force on ball=2.2*9.81=21.582N=weight of fluid displaced (Archimede's principle)

4. So the mass of 0.00137m^3 of the fluid can be solved by...
weight of fluid=(mass of fluid)g
mass of fluid=2.2kg

5. density of fluid=(mass fluid)/(volume of fluid)=1606 kg/m^3...

Did I use the apparent mass correctly in step 3?
 
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Bouyancy force on ball=(3.70-2.20)*9.81.

Regards,

Nacer.
 
Nacer said:
Bouyancy force on ball=(3.70-2.20)*9.81.

Regards,

Nacer.

Can you explain why and did I do the rest of problem correctly?
 
Last edited:
try a free body diagram where the ball is suspended in the fluid from a spring scale. Ordinarily the weight measured would be g*3.7, only in this case the scale measures 2.2*g kg. the difference is the upwards directed buoyancy force. (which as you have noted is density*volume*g.)

in this case, the problem is a bit of a curve ball as normally the x being sought is the density or volume of the object and not the medium, which is what I think got you a little tangled up above. that help at all?
 
This look correct?

1. Look-up density of Al: density=2.7*10^3 kg/m^3

2. Volume of ball=(mass ball)/(density of ball)=0.00137m^3

3. Buoyancy force on ball=(3.7-2.2)g=14.715N=weight of fluid displaced (Archimedes's principle)

4. So the mass of 0.00137m^3 of the fluid can be solved by...
weight of fluid=(mass of fluid)g
mass of fluid=1.5 kg

5. density of fluid=(mass fluid)/(volume of fluid)=1095 kg/m^3
 
i didn't run the numbers but I think you nailed it. Didn't need to multiply and then divide by g, but that's a small nitpick.
 

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