A CD with a diameter of 12.0 cm starts from rest and with a constant angular Iacceleration of 1.00 rad/sec? acquires an angular velocity of 5.00 rad/sec. The CDcontinues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0seconds with a constant angular deceleration. What is the total acceleration of a point4.00 cm from the center at the time 30.0 seconds from the start?0.0650 m/s?0.0522 m/s?0.0444 m/s?0.0324 m/s2O 0.0243 m/s²

Answered: A CD with a diameter of 12.0 cm starts…

University Physics Volume 1

18th Edition

ISBN:9781938168277

Author:William Moebs, Samuel J. Ling, Jeff Sanny

Publisher:William Moebs, Samuel J. Ling, Jeff Sanny

Chapter10: Fixed-axis Rotation

Section: Chapter Questions

Problem 38P: During a 6.0-s time interval, a fly-wheel with a constant angular acceleration turns through 500...

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Question

A CD with a diameter of 12.0 cm starts from rest and with a constant angular I
acceleration of 1.00 rad/sec? acquires an angular velocity of 5.00 rad/sec. The CD
continues rotating at 5.00 rad/sec for 15.0 seconds and then slows to a stop in 12.0
seconds with a constant angular deceleration. What is the total acceleration of a point
4.00 cm from the center at the time 30.0 seconds from the start?
0.0650 m/s?
0.0522 m/s?
0.0444 m/s?
0.0324 m/s2
O 0.0243 m/s²

Expert Solution

Step 1

We know that the formula of the first equation of the angular motion is given as

$ω_{f} = ω_{i} + αt$

where $ω_{f}$ is the final angular velocity, $ω_{i}$ is the initial angular velocity, and $α$ is the angular acceleration for a time t.

Here We know that the CD starts rotating from the rest and then accelerate with the constant acceleration $α_{1}$ and after some time t₁ it has an angular velocity $ω_{f 1}$ and then for a time t₂ it rotates with the constant angular velocity $ω_{f 1}$ and after that, it slows down with the angular acceleration $α_{2}$ in a time t₃it stop. let at a time t it r distance from the center at that time total acceleration of the CD is a.

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