#2 please show work so I can understand spins at 120 rpm.2. Refer to figure 2. A 25.0 kg mass rotates 0.250 m from a rotating point with an angularvelocity of 30.0 rad/sec. What is its moment of inertia? What is the initial angularmomentum of the rotating mass? If the radius were to extend to 0.500 m, what wouldbe the new angular velocity?Axisradius1-MR(a) ParticleFigure 23. Refer to figure 3. An 6.00 kg object rotates about a point 0.600 m away at 120.0 rpm.What is its angular velocity and frequency? What is its moment of inertia? What is itsangular momentum? If it took 3.00 s to change its angular velocity from rest, whatwould be the torque (i.e. rotational force) needed to change its angular momentum?AxisM.radius7-MR"(a) ParticleFlgure 3

Answered: Image /qna-images/answer/cf456cd2-f1da-427a-9c46-0830b7a10053.jpg

2. Refer to figure 2. A 25.0 kg mass rotates 0.250 m from a rotating point with an angular velocity of 30.0 rad/sec. What is its moment of inertia? What is the initial angular momentum of the rotating mass? If the radius were to extend to 0.500 m, what would be the new angular velocity? Axis M R radius 13MR2 (a) Particle Figure 2

2. Refer to figure 2. A 25.0 kg mass rotates 0.250 m from a rotating point with an angular velocity of 30.0 rad/sec. What is its moment of inertia? What is the initial angular momentum of the rotating mass? If the radius were to extend to 0.500 m, what would be the new angular velocity? Axis M R radius 13MR2 (a) Particle Figure 2

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter12: Rotation I: Kinematics And Dynamics

Section: Chapter Questions

Problem 60PQ

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