Finding the Center of Percussion

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AI Thread Summary
The discussion focuses on a physics problem involving a rod and a blob of putty, analyzing the conditions for conservation of linear momentum after a collision. The angular velocity of the system post-collision has been calculated using the formula provided. The key question is whether there exists a specific distance d from the pivot where linear momentum is conserved, termed the center of percussion. To find this value, one must equate the initial and final linear momentum, incorporating the putty's final momentum and the previously determined angular momentum. The solution requires careful consideration of both linear and angular momentum principles.
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Homework Statement


A rod of mass M and length L rests on a frictionless table and is pivoted on a frictionless nail at one end. A blob of putty of mass m approaches with velocity v from the left and strikes the rod a distance d rom the end as shown, sticking to the rod.

1. Find the angular velocity of the system about the nail after the collision (already done)
2. Is there a value of d for which linear momentum is conserved? If there were such a value, it would be called the center of percussion for the rod for this sort of collision.


Homework Equations



ω final = \frac{mvd}{(1/3)ML^2 + md^2}

The Attempt at a Solution


So, I know that linear momentum most be conserved. I don't know how to find the linear momentum of the rod
 
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The linear momentum of any object can be calculated as the total mass of the object multiplied by the linear velocity of the center of mass of the object.
 
TSny said:
The linear momentum of any object can be calculated as the total mass of the object multiplied by the linear velocity of the center of mass of the object.

So then do I just need to set P initial to P final, and solve for d, without having to worry about angular momentum?
 
Essentially, yes. But you'll need to use your result from part 1 which came from conservation of angular momentum. Also, don't forget to include the final linear momentum of the putty.
 
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