How Does A Ship Float on A Glass Of Water

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Homework Help Overview

The discussion revolves around the concept of how a ship can float in a glass of water, particularly focusing on the principles of density and buoyancy. The original poster expresses confusion regarding the feasibility of this scenario, especially given the limited context provided.

Discussion Character

  • Exploratory, Conceptual clarification, Assumption checking

Approaches and Questions Raised

  • Participants question the interpretation of "glass of water," considering whether it refers to both the water and the glass or just the water itself. Some suggest that the container's design can be flexible. Others explore the implications of buoyancy and pressure in relation to a small amount of water and the ship's hull shape.

Discussion Status

The discussion includes various interpretations of the problem, with some participants referencing previous threads for additional context. There is a suggestion that the principles of buoyancy apply even with minimal water, and a book recommendation is provided for further reading. However, there is no explicit consensus on the interpretation of the scenario.

Contextual Notes

Participants note the lack of detailed information from the original poster and the constraints of being in the early stages of their physics class. The discussion also touches on the idea of buoyancy in unconventional contexts, such as a dry dock scenario.

rittzlle
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Homework Statement



How Does A Ship Float on A Glass Of Water other than that he didnt gave me any details or it is really possible for a ship float in a glass of water in concept of density and buoyancy it's just our first week in class and i don't really have any idea

PLEASE HELP !
 
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Does "glass of water" mean the water and the glass, or just the water?
If the later, then you can design the "glass" or container any way you want.
 
This was beat to DEATH here quite some time back in a long thread. Try a forum search.

I started out vehemently opposing the idea but ended up seeing how it DOES work.
 
It's not a glass of water but a very small amount of water. Imagine a ship in a container that's the same shape as the hull of the ship and just barely bigger, perhaps just a few mm gap between the ship and the container, with water filling that gap. Since pressure within the water is a function of depth and not the quantity of water, and since buoyancy is a function of what would be the water displaced by the hull below the water line, it doesn't matter if that displaced water no longer exists within the container (otherwise the water wouldn't be "displaced"). (The ship could have been lowered into the container, spilling the displaced water outside of the container). So it doesn't matter that there is a small amount of water left in the container, and the ship will float on that thin layer of water. This only works if the density of the ship is less than the density of water.

wiki article on bouyancy:

http://en.wikipedia.org/wiki/Buoyancy
 
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Some heavy rotating objects such as the lens systems in a light house float on a thin layer of mercury.

You can see the round "tub" and the steel "boat" that the lens system floats on in this photo...

http://www.flickr.com/photos/splitrocklighthouse/4701461260/

Note the small gap for the "glass" of mercury.
 
Hi Rittzlle,
I am sure the thread above has answered all of you questions, I just wanted to add that the book recomended in the thread "thinking Physics" by L. Epstein is an excellent book and in it he states that this question was his fathers's favourite physics question.

It is effectively what is happening in a dry dock once they seal the doors just before they pump the water out.



Get the book
D
 
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