Calculating Moment of Inertia for Beginners

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Homework Help Overview

The discussion revolves around calculating the moment of inertia, a concept in physics related to rotational motion. Participants are exploring how to approach the problem and derive specific formulas for different axes.

Discussion Character

  • Exploratory, Assumption checking, Conceptual clarification

Approaches and Questions Raised

  • The original poster expresses confusion about how to begin the problem. Some participants suggest using an integral approach to calculate the moment of inertia, specifically mentioning the integration over volume and density. Others question the validity of derived results and seek clarification on how they were obtained.

Discussion Status

The discussion is ongoing, with participants sharing different approaches and questioning the correctness of derived formulas. There is no explicit consensus on the methods or results, but there is a productive exchange of ideas regarding the derivation process.

Contextual Notes

Participants are working with specific formulas for moment of inertia but are unsure about their derivation. There is mention of a website that provided results without explanations, leading to questions about the consistency of the formulas.

Tom McCurdy
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I was wondering how to start a. If I can get (a) I am pretty sure I can get b and c with not too much trouble

http://www.quantumninja.com/hw/random/problem6.jpg


I am really lost to how to even start this problem
 
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You did to do an integral over the volume [itex]\int \,dm*r^2 \,dv[/itex] where [itex]\,dm[/itex] is just the density of the material. The easiest way to do this I think would be to only do the above integral for one of the 4 quadrates and then times that answer by 4. r for one axes would be x and for the other would be y.
 
Ok I think I found the answer

for Moment of Inertia for

[tex]x= \frac{mab^3}{3}[/tex]

[tex]y= \frac{ma^3b}{4}[/tex]

Could someone show me how to derive these though??
 
Last edited:
How did u find those results...?

Daniel.
 
A website... I don't have the url anymore... why is it incorrect?
 
So they only gave the results and not how to get them,huh...?It looks weird,because one may expect the same denominator for both.

Daniel.
 

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