pping along the fl- ngle 0 = 30.0°, ngular speed ofi = 2.00 [m] from th
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![10.
3.00 [kg]
1.50 [m] compresses a spring (k
500. [N/m]) by 0.400 [m]. After releasing the shell from
rest, it rolls without slipping along the floor and up a sur-
face inclined at an angle 0 = 30.0°, as shown in the
figure. What is the angular speed of the shell when it
2.00 [m] from the base of the in-
A thin spherical shell of mass M =
Ax- 0.400m
and radius R
%|
e- 30.0°
reaches a distance L
%3D
cline? (I = }mr²)
A. 1.37 [rad/s]
B. 1.88 [rad/s]
C. 2.01 [rad/s]
D. 3.54 [rad/s]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F4dc59d16-2918-4e89-9fcb-a69f31c85db6%2Fe640b14b-7c35-4d2a-9724-afe039bd3277%2Fcug98f1c_processed.png&w=3840&q=75)
Transcribed Image Text:10.
3.00 [kg]
1.50 [m] compresses a spring (k
500. [N/m]) by 0.400 [m]. After releasing the shell from
rest, it rolls without slipping along the floor and up a sur-
face inclined at an angle 0 = 30.0°, as shown in the
figure. What is the angular speed of the shell when it
2.00 [m] from the base of the in-
A thin spherical shell of mass M =
Ax- 0.400m
and radius R
%|
e- 30.0°
reaches a distance L
%3D
cline? (I = }mr²)
A. 1.37 [rad/s]
B. 1.88 [rad/s]
C. 2.01 [rad/s]
D. 3.54 [rad/s]
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