How Does a Cockroach Affect the Angular Speed of a Lazy Susan?

AI Thread Summary
The discussion focuses on the effects of a cockroach running on a lazy Susan's angular speed and the conservation of angular momentum. Participants suggest using the conservation of angular momentum to relate the cockroach's linear speed to the lazy Susan's angular speed. The cockroach's momentum before stopping is compared to the system's momentum after it halts, emphasizing the need to treat the cockroach as a point mass. A formula is provided to calculate the new angular speed of the lazy Susan after the cockroach stops. The conversation highlights the complexities of combining linear and angular momentum in rotational motion scenarios.
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A cockroach of mass m runs counterclockwise around the rim of a lazy Susan (a circular disc mounted on a vertical axle) of radius R and rotational inertia I with frictionless bearings. The cockroach's speed relative to the Earth is v, where as the lazy Susan turns clockwise with angular speed wo. The cockroach finds a bread crumb on the rim and, or course stops. a) what is the angular speed of the lazy susan after cockroach stops. b.) Is mechanical energy conserved?


I'm not sure how to relate the cockroach's linear speed with the angular speed of the disc...

I'd love any help..
thanks!
 
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Use conservation of angular momentum... take clockwise positive... counterclockwise negative... what is the angular momentum of the cockroach before it stops... what is the angular momentum of the lazy Susan before the cockroach stops?

angular momentum afterwards the roach stops equals angular momentum before...
 
Try and use conservation of angular momentum - assume that the LS has none when the cc gets on it.
 
How do I manage to use a linear speed of (cockroach) when its spinning though? isn't rotational motion acceleration?

It doesn't make sense to me...
 
The cockroach has both linear momentum and angular momentum. Given the first and the distance from the axis, you can calculate the second. (Treat the cockroach as a point mass.)
 
w= ( mRv - Iwo ) / ( I + mR^2 )
 

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