Center of Mass, Man, Woman, and Frictionless Ice

AI Thread Summary
The discussion revolves around calculating the center of mass (CM) of a 58 kg woman and a 78 kg man standing 8.00 m apart on frictionless ice. The CM is determined to be 4.6 m from the woman. When the man pulls on a rope and moves 2.6 m, the new distance from the woman is calculated to be 1.9 m. The final question addresses how far the man will have moved when he collides with the woman, leading to the conclusion that he will have traveled 3.4 m from the CM at the point of collision. The calculations emphasize the principles of mass and motion in a frictionless environment.
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Homework Statement


A 58 kg woman and an 78 kg man stand 8.00 m apart on frictionless ice. How far from the woman is their CM? 4.6 m

If each holds one end of a rope, and the man pulls on the rope so that he moves 2.6 m, how far from the woman will he be now? Use two significant figures in answer. 1.9 m

How far will the man have moved when he collides with the woman?

Homework Equations



mass man * Δx man = mass woman * -Δx woman

The Attempt at a Solution

This can't be right because it's too close to letter B's answer.

I'm assuming because the ice is frictionless that they'll just keep going until the hit each other.

(78 kg)(x) = -(58 kg)(4.6 m)

x = -3.42 m

8.00 m - 2.6 m - 3.42 m = 1.98 m
 
Last edited:
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Think this way: When they finally hit each other, where will they both end up? How far from their starting points is that?
 
DocAl:

The man starts 8.00 m apart from the woman and I knew he was 4.6 m from her CM. 8.00m - 4.6m = 3.4m

Thank you
 
I'll rephrase: The man was initially 3.4 m from the center of mass, so when they collide he will have traveled 3.4 m.
 

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