Buoyancy lab for my physics class

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SUMMARY

The discussion centers on calculating the weight of water displaced by a 500-g mass in a physics lab. The volume of water displaced is confirmed to be 59.0 mL, which corresponds to a buoyant force of 0.56 N. It is clarified that volume (mL) cannot be directly converted to force (Newtons), as they represent different physical quantities. The correct method to find the weight of the displaced water involves multiplying the volume by the density of water (1 kg/L) and the acceleration due to gravity (9.8 m/s²).

PREREQUISITES
  • Understanding of buoyancy principles
  • Knowledge of unit conversions between volume and weight
  • Familiarity with the concept of density
  • Basic physics knowledge regarding forces and acceleration
NEXT STEPS
  • Learn about Archimedes' Principle and its applications
  • Study unit conversions involving mass, volume, and force
  • Explore the calculation of buoyant force in different fluids
  • Investigate the relationship between density and buoyancy
USEFUL FOR

This discussion is beneficial for physics students, educators conducting lab experiments, and anyone interested in understanding buoyancy and fluid mechanics.

Skipperchrldr
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I'm trying to do a lab for my physics class. It wants me to calculate the weight of the water displaced when I put a 500-g mass in a cup of water. I know the volume which is 59.0 ml. And I also know that the Buoyant force i s 0.56 N. I thought that the Buoyant force equals the volume of the water displaced but my friend told me that I have to convert the volume (59.0 ml) to Newtons. I was wondering which one of us was right and if my friend was right i was wondering how to convert ml to Newtons.
 
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You cannot convert units of volume (mL) to units of force (Newtons). They are two entirely different kinds of units.

What do you mean "I know the volume which is 59.0 ml?" Do you mean the volume of the mass is 59 mL, or the volume of the cup of 59 mL, or what?

- Warren
 
The volume of the water displaced by the 500-g mass is 59.0 ml
 
If a 59.0 ml. object (of any density greater than that of water) is dropped into water, then it displaces 59.0 ml of water (of course!).

The weight of that water is 59.0 ml * density of water in kg. per ml times 9.8 m/s2 Newtons.
 
Thanks SO much guys. That helped SOOOO much!
 
Last edited:

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