Calculating Volume and Density: A Wrestler's Underwater Apparent Weight of 80N

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To solve for the wrestler's volume and density, the apparent weight in water (80N) and the actual weight (980N) must be used. The buoyant force can be calculated by subtracting the apparent weight from the actual weight, which helps determine the volume using the formula for buoyancy. The relationship between mass, volume, and density is crucial, where mass equals volume times density. The relevant equations include weight as mass times gravity and the formulas for buoyancy and density. Understanding these concepts will lead to the solution of the problem.
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Homework Statement


A wrestler weights 980N. His apparent weight when fully submerged in water is 80N. Find his volume and density.


Homework Equations


I cannot figure out how to begin this problem.:confused:


The Attempt at a Solution

 
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Do you know an equation that relates weight, volume and density? And another that relates them while the object is submerged in a liquid?
 
catkin said:
Do you know an equation that relates weight, volume and density? And another that relates them while the object is submerged in a liquid?[/QU

Well, I'm going to say no...This teacher is horrible! The information that is given on the board does not even match up with what is in our book. I'll try and look around for some answers...Thanks!
 

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