I Review I Three identical 9.50 kg masses are hung by three identical springs (Figure 1). Each spring has a force constant of 7.10 kN/m and was 15.0 cm long before How long is the middle spring when hanging as shown? (Hint: treat the bottom two masses as a system.) Express your answer with the appropriate units. any masses were attached to it. IM = 17.6 cm Submit Previous Answers v Correct Part F Figure 1 of 1 How long is the top spring when hanging as shown? (Hint: treat all three masses as a system.) Express your answer with the appropriate units. HA lT = Value Units Submit Request Answer

University Physics Volume 1
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ISBN:9781938168277
Author:William Moebs, Samuel J. Ling, Jeff Sanny
Publisher:William Moebs, Samuel J. Ling, Jeff Sanny
Chapter15: Oscillations
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I Review I
Three identical 9.50 kg masses are hung by three
identical springs (Figure 1). Each spring has a force
constant of 7.10 kN/m and was 15.0 cm long before
How long is the middle spring when hanging as shown? (Hint: treat the bottom two masses as a system.)
Express your answer with the appropriate units.
any masses were attached to it.
Iм 3D 17.6 сп
Submit
Previous Answers
Correct
Part F
Figure
1 of 1
How long is the top spring when hanging as shown? (Hint: treat all three masses as a system.)
Express your answer with the appropriate units.
HẢ
lT =
Value
Units
Submit
Request Answer
Transcribed Image Text:I Review I Three identical 9.50 kg masses are hung by three identical springs (Figure 1). Each spring has a force constant of 7.10 kN/m and was 15.0 cm long before How long is the middle spring when hanging as shown? (Hint: treat the bottom two masses as a system.) Express your answer with the appropriate units. any masses were attached to it. Iм 3D 17.6 сп Submit Previous Answers Correct Part F Figure 1 of 1 How long is the top spring when hanging as shown? (Hint: treat all three masses as a system.) Express your answer with the appropriate units. HẢ lT = Value Units Submit Request Answer
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