Consider the following numerical data that apply to a viscously-data spring-mass system subjected to forced vibration, as shown in figure P3 below: m = 130.0 kg, k = 4.0 kN/m, c = 950 N- s/m and P= 450 Sin pt N. For what excitation frequency (or frequencies), the steady-state amplitude of the system will be less than 1.65 mm? Figure P3. P-P, sin pe x(1)
Consider the following numerical data that apply to a viscously-data spring-mass system subjected to forced vibration, as shown in figure P3 below: m = 130.0 kg, k = 4.0 kN/m, c = 950 N- s/m and P= 450 Sin pt N. For what excitation frequency (or frequencies), the steady-state amplitude of the system will be less than 1.65 mm? Figure P3. P-P, sin pe x(1)
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#3 vibrations, will upvote anyone who will answer. Thanks
Transcribed Image Text:Consider the following numerical data that apply to a viscously-data spring-mass system
subjected to forced vibration, as shown in figure P3 below: m = 130.0 kg, k = 4.0 kN/m, c = 950 N-
s/m and P = 450 Sin pt N. For what excitation frequency (or frequencies), the steady-state amplitude
of the system will be less than 1.65 mm?
Figure P3.
P=P, sin pt
x(t)
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