Difference between volume displaced fluid and volume of the object

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SUMMARY

The discussion clarifies the distinction between the volume of an object and the volume of fluid it displaces, as explained by Archimedes' Principle. When an object floats, it displaces a volume of fluid equal to the submerged portion of the object, not the entire volume. For instance, if a log with volume V is floating such that half is submerged, it displaces V/2 of water, indicating that the log's density is half that of water. This principle is crucial for understanding buoyancy and the behavior of floating objects.

PREREQUISITES
  • Understanding of Archimedes' Principle
  • Basic knowledge of fluid mechanics
  • Familiarity with concepts of density and buoyancy
  • Ability to interpret equations related to forces in fluids
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  • Study the mathematical derivation of Archimedes' Principle
  • Learn about the relationship between density and buoyancy
  • Explore applications of buoyancy in engineering and design
  • Investigate the effects of varying fluid densities on buoyant force
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Students of physics, engineers working with fluid dynamics, and anyone interested in the principles of buoyancy and object behavior in fluids will benefit from this discussion.

paulh428
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What is the difference between the volume displaced and the object of the volume, according to Archimedes' Principle? Because I'm trying to find logs floating on water and my book gives an equation for buoyant force. Here it is Fb = mg => rho-fluid * V-displaced * g = rho-object * V-object * g. Hope that equation helps. Essentially, my question leads to: shouldn't the V-displaced and V-object be the same thing?

Hope this makes sense. Please ask if you want me to try and make some more sense. :D
 
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Only if the object is fully submerged.

If the object floats, it will only displace water equal to the volume of the submerged portion.
 
If the log has volume v and it floats so that exactly half of it is submerged and half is above the water it would displace v/2 volume of water. And that would mean, of course, that the density of the log is 1/2 the density of water.
 

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