Finding a common angular velocity

AI Thread Summary
A disk is rotating at 1,000 revolutions per minute, and a hoop with twice the disk's mass is dropped onto it. The conservation of angular momentum equation is applied, leading to the calculation of the common angular velocity of the combined system. Initially, the calculation was incorrect because it only considered the hoop's angular momentum. After correcting for the total system, the common angular velocity is determined to be 200 revolutions per minute. The discussion emphasizes the importance of accounting for both objects' contributions to angular momentum.
lmc489
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Homework Statement


A disk is rotating freely at 1,000 revolutions per minute about a vertical axis through its center. A hoop with twice the mass of the disk and the same radius as the uniform disk is poised exactly above and is initially at rest. The hop is dropped gently upon the disk so that their rims coincide. The common angular velocity of the disk-hoop combination is:


Homework Equations


Conservation of Angular Momentum:
I1w1 = I2w2


The Attempt at a Solution


I1w1 = I2w2
1/2MR^2 x 1000 rpm = 2MR^2 w2

w2 = 1/2MR^2 x 1000 rpm/ 2MR^2
w2 = 250 rev/min

is this correct?
 
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Hi lmc489,

lmc489 said:

Homework Statement


A disk is rotating freely at 1,000 revolutions per minute about a vertical axis through its center. A hoop with twice the mass of the disk and the same radius as the uniform disk is poised exactly above and is initially at rest. The hop is dropped gently upon the disk so that their rims coincide. The common angular velocity of the disk-hoop combination is:


Homework Equations


Conservation of Angular Momentum:
I1w1 = I2w2


The Attempt at a Solution


I1w1 = I2w2
1/2MR^2 x 1000 rpm = 2MR^2 w2

I don't believe this is correct. On the right hand side you only have the angular momentum of the hoop. You need the total angular momentum of the entire hoop-disk system.
 
oh YES! i forgot. so instead the answer would be 200 right?
 
lmc489 said:
oh YES! i forgot. so instead the answer would be 200 right?


That looks right to me (if you want the answer in rpm).
 

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