A disk of mass M is spinning freely at 6.49 rad/s when a second identical disk, initially not spinning, is dropped onto it so that their axes coincide. In a short time the two disks are corotating. HINT (a) What is the angular speed of the new system (in rad/s)? rad/s (b) If a third such disk is dropped on the first two, find the final angular speed of the system (in rad/s). rad/s

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Chapter1: Units, Trigonometry. And Vectors
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### Conservation of Angular Momentum

A disk of mass \( M \) is spinning freely at \( 6.49 \, \text{rad/s} \) when a second identical disk, initially not spinning, is dropped onto it so that their axes coincide. In a short time, the two disks are co-rotating.

#### (a) Find the Angular Speed of the New System
What is the angular speed of the new system (in rad/s)?

\[ \boxed{\phantom{0}}\ \text{rad/s} \]

#### (b) Angular Speed with a Third Disk
If a third such disk is dropped on the first two, find the final angular speed of the system (in rad/s).

\[ \boxed{\phantom{0}}\ \text{rad/s} \]

### Hint

Consider the principles of the conservation of angular momentum to solve these problems.
Transcribed Image Text:### Conservation of Angular Momentum A disk of mass \( M \) is spinning freely at \( 6.49 \, \text{rad/s} \) when a second identical disk, initially not spinning, is dropped onto it so that their axes coincide. In a short time, the two disks are co-rotating. #### (a) Find the Angular Speed of the New System What is the angular speed of the new system (in rad/s)? \[ \boxed{\phantom{0}}\ \text{rad/s} \] #### (b) Angular Speed with a Third Disk If a third such disk is dropped on the first two, find the final angular speed of the system (in rad/s). \[ \boxed{\phantom{0}}\ \text{rad/s} \] ### Hint Consider the principles of the conservation of angular momentum to solve these problems.
Expert Solution
Step 1

Given

Mass of disk = M

Initial angular speed of disk = 6.49 rad/s

A second identical disk is initially not sppining dropped into first rotating disk in such a way that their axis coincide.

We have to calculate

a) angular speed of new system.

b) If third identical disk is dropped on the two, then the final angular speed.

steps

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