Find Center of Mass for Semicircular Wire

AI Thread Summary
To find the center of mass of a semicircular wire, it's essential to recognize that the wire forms a closed loop, akin to a solid half disk's outer edge. The center of mass for the x-coordinate is zero due to symmetry. For the y-coordinate, the calculation involves using the total length of the wire and uniform density, simplifying the mass factor out of the equation. A visual representation can clarify the configuration, as the wire consists of both a semicircular part and a connecting straight segment. The discussion emphasizes the importance of understanding the wire's geometry for accurate calculations.
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Homework Statement


Find the center of mass of a semicircular wire. The wire is a semicircle, but the important thing to realize is that the wire is a closed loop. Think of a solid half disk, and just take the outer edge.
Where is the center of mass? This will be positioned with the center at the origin.
Radius b.

Homework Equations


cm = x1*m+x2*m/total mass

The Attempt at a Solution


What I tried to do was try to stay away from the integrals since there are just wires being used.
For the center of mass of x, it will be at zero because of symmetry.

For y, I used the equation above. With uniform density, the mass will factor out and I will just be left with lengths.

(2b*0 + Pi*b*2*b/Pi )/(2b + Pi*b)... is this right? or would you suggest that I use integrals.
 
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Slightly said:

Homework Statement


Find the center of mass of a semicircular wire. The wire is a semicircle, but the important thing to realize is that the wire is a closed loop. Think of a solid half disk, and just take the outer edge.

Self-contradictory. Doesn't make sense. Draw a picture.
 
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Here is the picture!
 

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That makes sense. The wire is not a semi-circle, it is a semi-circle AND a connecting wire.
 
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