A 3.2-kg piece of putty is dropped 2.3 m onto the initially stationary block, which is supported by four springs, each of which has a constant k = 900 N/m. Determine the displacement x as a function of time during the resulting vibration, where x is measured from the initial position of the block as shown. Once you have the general solution answer the questions. 3.2 kg 27 kg Questions: 2.3 m When t = 0.148 s: x= When t = 0.245 s: X = When t = 0.471 s: x= i i i ! mm mm mm

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
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A 3.2 kg piece of putty is dropped 2.3 m onto the initially stationary block, which is supported by four springs, each of which has a constant k = 900 n/m. Determine the displacement x as a function of time during the resulting vibration, where x is measured from the initial position of the block as shown.

 

A 3.2-kg piece of putty is dropped 2.3 m onto the initially stationary block, which is supported by four springs, each of which has a
constant k = 900 N/m. Determine the displacement x as a function of time during the resulting vibration, where x is measured from the
initial position of the block as shown. Once you have the general solution answer the questions.
3.2 kg
27 kg
Questions:
2.3 m
When t = 0.148 s:
When t = 0.245 s:
When t = 0.471 s:
X =
X =
X =
i
i
i
mm
mm
mm
Transcribed Image Text:A 3.2-kg piece of putty is dropped 2.3 m onto the initially stationary block, which is supported by four springs, each of which has a constant k = 900 N/m. Determine the displacement x as a function of time during the resulting vibration, where x is measured from the initial position of the block as shown. Once you have the general solution answer the questions. 3.2 kg 27 kg Questions: 2.3 m When t = 0.148 s: When t = 0.245 s: When t = 0.471 s: X = X = X = i i i mm mm mm
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