Calculate what the theorectical frequency is Mass of the iOLab device mSpring Constant k = 99.07Run #|112314TotalTime formass mtot (kg) 4 cyclesmm+0.05kgm+0.1 kgm9.4110.481.85 kg9.38Period T (s)2.352.6211.30 2.832.34Freq. f=1/T AngularFreq.(HZ)1.1711.721.721.71?2.672.392.222.69Theoretical

Answered: Image /qna-images/answer/e2d540a4-7b62-4847-9626-97304474b603.jpg

Mass of the iOLab device m = 1.85 kg Spring Constant k = 99.07 Run # |1 2 3 4 Time for Total mass mtot (kg) 4 cycles m m+0.05kg m+0.1 kg Im 9.41 10.48 Period T (s) 9.38 2.35 2.62 11.30 2.83 2.34 |Freq. f=1/T |(HZ) 1.171 1.72 1.72 1.71 Angular Freq. ? 2.67 2.39 2.22 2.69 Theoretical

Mass of the iOLab device m = 1.85 kg Spring Constant k = 99.07 Run # |1 2 3 4 Time for Total mass mtot (kg) 4 cycles m m+0.05kg m+0.1 kg Im 9.41 10.48 Period T (s) 9.38 2.35 2.62 11.30 2.83 2.34 |Freq. f=1/T |(HZ) 1.171 1.72 1.72 1.71 Angular Freq. ? 2.67 2.39 2.22 2.69 Theoretical

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Question

Calculate what the theorectical frequency is

Mass of the iOLab device m
Spring Constant k = 99.07
Run #
|1
12
3
14
Total
Time for
mass mtot (kg) 4 cycles
m
m+0.05kg
m+0.1 kg
m
9.41
10.48
1.85 kg
9.38
Period T (s)
2.35
2.62
11.30 2.83
2.34
Freq. f=1/T Angular
Freq.
(HZ)
1.171
1.72
1.72
1.71
?
2.67
2.39
2.22
2.69
Theoretical

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