A 5.0-kg mass is suspended on a spring. In equilibrium, the mass stretches the spring 24.5 cm downward. The mass is then pulled down an additional 25 cm and released. Using the given values, correctly identify the spring constant of the spring, the amplitude of oscillation, the frequency of oscillation, the total energy of the oscillation, and full range of vertical motion. The full range of vertical motion is the distance between the maximum and minimum heights of the mass.
A 5.0-kg mass is suspended on a spring. In equilibrium, the mass stretches the spring 24.5 cm downward. The mass is then pulled down an additional 25 cm and released. Using the given values, correctly identify the spring constant of the spring, the amplitude of oscillation, the frequency of oscillation, the total energy of the oscillation, and full range of vertical motion. The full range of vertical motion is the distance between the maximum and minimum heights of the mass.
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Transcribed Image Text:A 5.0-kg mass is suspended on a spring. In equilibrium, the mass stretches the spring
24.5 cm downward. The mass is then pulled down an additional 25 cm and released.
Using the given values, correctly identify the spring constant of the spring, the amplitude
of oscillation, the frequency of oscillation, the total energy of the oscillation, and full range
of vertical
motion. The full range of vertical motion is the distance between the maximum and
minimum heights of the mass.
The frequency of oscillation
The full range of vertical motion
The amplitude of oscillation
The total energy of oscillation
The spring constant of the spring
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0.50 m
20 Hz
0.50 Hz
0.495 m
None of these
0.25 m
50.0 J
200 N/m
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