Moment of Inertia of spherical masses

AI Thread Summary
The discussion focuses on calculating the moment of inertia for three small spherical masses located in a plane, specifically with respect to an axis perpendicular to the xy plane at x=0 and y=-3. The key equation used is I=∑m*r^2, where 'r' represents the distance from the axis, not the radius of the masses. One participant initially misinterpreted 'r' as the radius, which led to confusion and incorrect results. Clarification was provided that finding the center of mass was unnecessary for this calculation. Ultimately, the correct approach involves measuring the distance from the specified axis to each mass to compute the moment of inertia accurately.
gummybeargirl
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Homework Statement


Three small spherical masses are located in a plane at the positions shown below.
The masses are Q=0.700 kg, R=0.400 kg, and S=0.800 kg. Calculate the moment of inertia (of the 3 masses) with respect to an axis perpendicular to the xy plane and passing through x=0 and y=-3. [Since the masses are of small size, you can neglect the contribution due to moments of inertia about their centers of mass.]

Homework Equations


I=∑m*r^2,

The Attempt at a Solution


I tried finding the Center of mass with turned out to be (-0.42, -1.15) and then tried to find the radius to plug into the equation, but that gave me the wrong answer and I am not sure where to even start with this problem.
 

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gummybeargirl said:

Homework Statement


Three small spherical masses are located in a plane at the positions shown below.
The masses are Q=0.700 kg, R=0.400 kg, and S=0.800 kg. Calculate the moment of inertia (of the 3 masses) with respect to an axis perpendicular to the xy plane and passing through x=0 and y=-3. [Since the masses are of small size, you can neglect the contribution due to moments of inertia about their centers of mass.]

Homework Equations


I=∑m*r^2,

The Attempt at a Solution


I tried finding the Center of mass with turned out to be (-0.42, -1.15) and then tried to find the radius to plug into the equation, but that gave me the wrong answer and I am not sure where to even start with this problem.

Go back to the definition of 'r' in the equation for calculating moment of inertia. It's nice you found the c.o.m. for the system, but it's irrelevant for solving this problem.
 
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Thank you for your help. I got it by using the equation I posted, I was just was confusing r as the radius not as the distance from the axis.
 

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