Does a purely rotating body have zero linear momentum?

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SUMMARY

A purely rotating body, such as a disk hinged at a point, has zero linear momentum only when analyzed from the inertial frame of reference of its center of mass. In this scenario, the linear momenta of all parts of the body sum to zero. However, if the disk is hinged at a point other than its center of mass, it will possess non-zero linear momentum relative to the inertial frame defined by the center of rotation, with the momentum continuously changing direction. This distinction is crucial for understanding the behavior of rotating bodies in physics.

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erisedk
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Homework Statement


Does a purely rotating body (something like a disk hinged at a point and rotating with some angular speed) have zero linear momentum?


Homework Equations

The Attempt at a Solution


I believe it will, but I'm not like completely convinced. I tried to draw an analogy with a purely translating body having zero angular momentum, but that's only when the angular momentum is considered about the center of mass, not any random point. But linear momentum isn't defined with respect to points. So, I'm pretty sure that a purely rotating body has zero linear momentum, but I'd just like somebody to confirm it.
 
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erisedk said:

Homework Statement


Does a purely rotating body (something like a disk hinged at a point and rotating with some angular speed) have zero linear momentum?

Homework Equations

The Attempt at a Solution


I believe it will, but I'm not like completely convinced. I tried to draw an analogy with a purely translating body having zero angular momentum, but that's only when the angular momentum is considered about the center of mass, not any random point. But linear momentum isn't defined with respect to points. So, I'm pretty sure that a purely rotating body has zero linear momentum, but I'd just like somebody to confirm it.
Linear momentum is defined relative to an inertial frame of reference. The answer to your question (without the parentheses) is: yes, in the inertial frame of reference of the the centre of mass of the rotating body. Essentially, the linear momenta of all the parts of the body at any given moment sum to zero. The answer to your question (with the parentheses) is: not necessarily. If a disk is hinged at a point other than its centre of mass, then the centre of mass will be rotating and the linear momentum of all parts at a given moment will not sum to zero. It will have non-zero linear momentum relative to the inertial frame of reference defined by the centre of rotation, but that linear momentum will keep changing direction.

AM
 
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