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# Angular deceleration is exemplified.

A centrifuge is a common laboratory instrument that separates components of differing densities in solution. This is accomplished by spinning a sample around in a circle with a large angular speed. Suppose that after a centrifuge in a medical laboratory is turned off it continues to rotate with a constant angular deceleration for 15.5 s before coming to rest.
(a) If its initial angular speed was 3410 rpm, what is the magnitude of its angular deceleration?
(b) How many revolutions did the centrifuge complete after being turned off?

#### Solution Preview

A centrifuge is a common laboratory instrument that separates components of differing densities in solution. This is accomplished by spinning a sample around in a circle with a large angular speed. Suppose that after a centrifuge in a medical laboratory is turned off it continues to rotate with a constant angular deceleration for 15.5 s before coming to rest.
(a) If its initial angular speed was 3410 rpm, what is the magnitude of its angular deceleration? (b) How many revolutions did the centrifuge complete after ...

#### Solution Summary

The solution examines angular deceleration of a centrifuge. The amount of revolutions a centrifuge completes after being turned off is determined.

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