02 2. A hollow can of mass M and radius R is released from rest from a height h at the top of an incline with angle 0 as shown and rolls down without slipping. Model the can as a hollow cylinder or hoop. a. Find the coefficient of static friction on the incline as a function of the angle only. Draw a detailed diagram of the can on the incline showing all the forces, axis of rotation and lever arms. b. Find the speed at the bottom of the incline in terms of the variablesg and h. No numbers for this problem! M

02 2. A hollow can of mass M and radius R is released from rest from a height h at the top of an incline with angle 0 as shown and rolls down without slipping. Model the can as a hollow cylinder or hoop. a. Find the coefficient of static friction on the incline as a function of the angle only. Draw a detailed diagram of the can on the incline showing all the forces, axis of rotation and lever arms. b. Find the speed at the bottom of the incline in terms of the variablesg and h. No numbers for this problem! M

University Physics Volume 1

18th Edition

ISBN:9781938168277

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

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

Chapter11: Angular Momentum

Section: Chapter Questions

Problem 59P: A bug of mass 0.020 kg is at rest on the edge of a solid cylindrical disk (M=0.10kg,R=0.10m)...

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Question

I need help on this problem. Please state givens and draw diagrams. Thank you

2. A hollow can of mass M and radius R is released from rest from a height h at the top of an incline with
angle 0 as shown and rolls down without slipping. Model the can as a hollow cylinder or hoop.
a. Find the coefficient of static friction on the incline as a function of the angle only. Draw a detailed
diagram of the can on the incline showing all the forces, axis of rotation and lever arms.
b. Find the speed at the bottom of the incline in terms of the variables g and h.
6P-
No numbers for this problem!
M
R
it 2
0002

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