In the figure, a solid cylinder attached to a horizontal spring (k = 9.60 N/m) rolls without slipping along a horizontal surface. If the system is released from rest when the spring is stretched by 0.130 m, find (a) the translational kinetic energy and (b) the rotational kinetic energy of the cylinder as it passes through the equilibrium position. (c) If the cylinder has mass M = 5.70 kg, find the period of the simple harmonic motion that the cylinder's center of mass executes. (Hint: Find the time derivative of the total mechanical energy.)

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Chapter 15, Problem 100
In the figure, a solid cylinder attached to a horizontal spring (k = 9.60 N/m) rolls without slipping along a horizontal surface. If the system is released from rest when the
spring is stretched by 0.130 m, find (a) the translational kinetic energy and (b) the rotational kinetic energy of the cylinder as it passes through the equilibrium position. (c)
If the cylinder has mass M = 5.70 kg, find the period of the simple harmonic motion that the cylinder's center of mass executes. (Hint: Find the time derivative of the total
mechanical energy.)
000000
(a) Number
Units
(b) Number
Units
(c) Number
Units
Click if you would like to Show Work for this question: Open Show Work
dy
Transcribed Image Text:PRINTER VERSION 1 BACK NEXT Chapter 15, Problem 100 In the figure, a solid cylinder attached to a horizontal spring (k = 9.60 N/m) rolls without slipping along a horizontal surface. If the system is released from rest when the spring is stretched by 0.130 m, find (a) the translational kinetic energy and (b) the rotational kinetic energy of the cylinder as it passes through the equilibrium position. (c) If the cylinder has mass M = 5.70 kg, find the period of the simple harmonic motion that the cylinder's center of mass executes. (Hint: Find the time derivative of the total mechanical energy.) 000000 (a) Number Units (b) Number Units (c) Number Units Click if you would like to Show Work for this question: Open Show Work dy
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