Water Displacement: Floating vs Submerged Objects

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SUMMARY

The discussion clarifies the principles of water displacement for floating versus submerged objects. For submerged objects, the volume of water displaced is equivalent to the object's volume. In contrast, floating objects displace a volume of water that weighs the same as the object itself. Understanding the densities of both the object and water is crucial to determine buoyancy, but only the object's weight is necessary to calculate the displaced water volume for floating scenarios.

PREREQUISITES
  • Understanding of Archimedes' Principle
  • Basic knowledge of density and mass calculations
  • Familiarity with buoyancy concepts
  • Ability to calculate volume from mass and density
NEXT STEPS
  • Research Archimedes' Principle in detail
  • Learn how to calculate buoyancy forces in different fluids
  • Explore the relationship between density and buoyancy
  • Study real-world applications of water displacement in engineering
USEFUL FOR

Students in physics, engineers working with fluid dynamics, and anyone interested in understanding the principles of buoyancy and water displacement.

kuhatelyn
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difference between the amount of water displaced by a floating vs submerged object??

I'm so confused.

Let's say you have the mass and density of a floating object. How would you find the volume of the water displaced? And how is this different from finding the volume of water displaced by the object if it were submerged?

PLEASE HELP!
 
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For a submerged object, the volume of water displaced is equal to the volume of the object.

For a floating object, it will displace a water weight equal to the object weight.

So you don't need to know the density of the object, except to verify if it is greater than or less than the density of water. That determines if it will float or not. But you will also need to know the density of the water.
 
Thread 'A high school physics problem demonstrating relative motion'

Thread 'A high school physics problem demonstrating relative motion'

I remembered a pretty high school problem from kinematics. But it seems it can help even undergraduates to develop their understanding of what a relative motion is. Consider a railway circle of radius ##r##. Assume that a carriage running along this circle has a speed ##v##. See the picture. A fly ##M## flies in the opposite direction and has a speed ##u,\quad |OM|=b##. Find a speed of the fly relative to the carriage. The obvious incorrect answer is ##u+v## while the correct answer is...
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