The 0.5 N pellet is pushed against the spring and released from rest at A as shown in the figure below. Neglecting friction, determine the smallest deflection of the spring for which the pellet will travel around the loop and remain in contact with the loop at all times. (Use the principle of energy onservation)
The 0.5 N pellet is pushed against the spring and released from rest at A as shown in the figure below. Neglecting friction, determine the smallest deflection of the spring for which the pellet will travel around the loop and remain in contact with the loop at all times. (Use the principle of energy onservation)
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Transcribed Image Text:The 0.5 N pellet is pushed against the spring
and released from rest at A as shown in the
figure below. Neglecting friction, determine
the smallest deflection of the spring for
which the pellet will travel around the loop
and remain in contact with the loop at all
times. (Use the principle of energy
conservation).
D
2 m
k = 3 N/cm
C
E
W = 0.5 N
B
A
Beer,2011
а. 1.5 m
b. 0.9 m
c. 1.1 m
d. 1.3 m
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