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Miscellaneous Rotation. More interesting relationships.

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Presentation on theme: "Miscellaneous Rotation. More interesting relationships."— Presentation transcript:

1 Miscellaneous Rotation

2 More interesting relationships

3 Momentum Formula for Kinetic Energy Often it is useful to have the formulas for kinetic energy written in terms of momentum.

4 Conservation of Angular Momentum Practice Problem 1 A disk is rotating with speed    about a frictionless shaft. Its rotational inertia is I 1. It drops onto another disk of rotational inertia I 2 that is at rest on the same shaft. Because of friction, the two disks attain a common speed  f. Find  f.

5 Conservation of Angular Momentum Practice Problem 2 A merry-go-round (r =2, I = 500 kg m/s 2 ) is rotating about a frictionless pivot, making one revolution every 5 s. A child of mass 25 kg originally standing at the center walks out to the rim. Find the new angular speed of the merry-go- round.

6 Conservation of Angular Momentum Practice Problem 2 A merry-go-round (r =2, I = 500 kg m/s 2 ) is rotating about a frictionless pivot, making one revolution every 5 s. A child of mass 25 kg originally standing at the center walks out to the rim. Find the new angular speed of the merry-go- round. Ans.-  f =(5/6)  i

7 Conservation of Angular Momentum Practice Problem 3 The same child as in the previous problem runs with a speed of 2.5 m/s tangential to the rim of the merry go round, which is initially at rest. Find the final angular velocity of the child and merry go round together.

8 Conservation of Angular Momentum Practice Problem 3 The same child as in the previous problem runs with a speed of 2.5 m/s tangential to the rim of the merry go round, which is initially at rest. Find the final angular velocity of the child and merry go round together. Ans.  = 0.208 rad/s

9 Conservation of Angular Momentum Practice Problem 4a A particle of mass m moves with speed v 0 in a circle of radius r 0. The particle is attached to a string that passes through a hole in the table. The string is pulled downward so the mass moves in a circle of radius r. Find the final velocity.

10 Conservation of Angular Momentum Practice Problem 4a A particle of mass m moves with speed v 0 in a circle of radius r 0. The particle is attached to a string that passes through a hole in the table. The string is pulled downward so the mass moves in a circle of radius r. Find the final velocity. Ans. v= (r 0 /r) v 0

11 Conservation of Angular Momentum Practice Problem 4b Find the tension T in the string in terms of m, r, r 0 and v o.

12 Conservation of Angular Momentum Practice Problem 4b Find the tension T in the string in terms of m, r, r 0 and v o.

13

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