Ice Floats: Calculating Water Level Percent

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Homework Help Overview

The discussion revolves around understanding the principles of buoyancy and density, specifically regarding how much of a floating ice volume is above water. The problem involves calculating the percentage of ice that remains visible when floating in water, given the densities of both substances.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants explore the relationship between the mass of ice and the volume of water displaced. Questions arise about the calculations involving densities and the implications of these values on the submerged and visible portions of the ice.

Discussion Status

Some participants have provided insights into the forces acting on the ice and suggested creating a free body diagram to clarify the problem. There is an ongoing exploration of how to relate the volume of displaced water to the total volume of ice, with no explicit consensus reached yet.

Contextual Notes

Participants are working under the assumption that the densities provided are accurate and relevant to the problem, and there is a mention of a desired percentage format for the final answer.

Miri
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Homework Statement


If ice floats in water, how many percent of it show above the water level?
density of water=1000kg/m^3
density of ice=920kg/m^3

Homework Equations


I really don't know how to start and what I have to do with those densities...just give me a hint. solution would be 8%
 
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Consider a volume of ice. How much does it weigh?

Then how much water needs to be displaced to support that?

Subtract that from 1 to get the % above the water line.
 
So I take for example 100m^3 for the volume of ice. So the mass is (920kg/m^3)*100m^3=92000kg. Then I divide 92000kg by the density of water and I get 92m^3. And then??
 
No, no, that won't get you anywhere. Try making a free body diagram of a block of ice, mass m, suspended in water.
What are the forces acting on it? What is the sum of these forces, and what does that say about the volume of ice submerged relative to its total volume? (The %)
 
Miri said:
So I take for example 100m^3 for the volume of ice. So the mass is (920kg/m^3)*100m^3=92000kg. Then I divide 92000kg by the density of water and I get 92m^3. And then??

So that means that only 92 m3 of water are needed to support 100 m3 of ice. What's the difference? Isn't that what's left over above the water line? What's the percentage since that's the form they want the answer in?
 
Ok, thanks, I got it...
 

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