A 2.6kg mass is a attached to a spring with a stiffness of 410N/m. In the picture on the left side, the system is in equilibrium. A student then displaces the spring downward to the position as shown. Neglect friction and drag. What is the period of the harmonic motion? unit v What is the frequency of the harmonic motion? unit How many cycles would the system make in 55s? (You may answer with a decimal) 37cm What is the minimum length (L) of the spring as it ocillates? cm How far does the mass travel during one period? cm 44cm
A 2.6kg mass is a attached to a spring with a stiffness of 410N/m. In the picture on the left side, the system is in equilibrium. A student then displaces the spring downward to the position as shown. Neglect friction and drag. What is the period of the harmonic motion? unit v What is the frequency of the harmonic motion? unit How many cycles would the system make in 55s? (You may answer with a decimal) 37cm What is the minimum length (L) of the spring as it ocillates? cm How far does the mass travel during one period? cm 44cm
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Transcribed Image Text:A 2.6kg mass is a attached to a spring with a stiffness of 410N/m. In the picture on
the left side, the system is in equilibrium. A student then displaces the spring
downward to the position as shown. Neglect friction and drag.
What is the period of the harmonic motion?
unit
What is the frequency of the harmonic motion?
unit
How many cycles would the system make in 55s?
(You may answer with a decimal)
37cm
What is the minimum length (L) of the spring as it oscillates?
cm
How far does the mass travel during one period?
cm
44cm
00000
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