If the 100 kg (Figure B1) mass has a downward velocity of 0.5 m/s as it passes through its equilibrium position. Each of the two springs has a stiffness k=180 kN/m, calculate: the equivalent spring stiffness b) the natural frequency of the system c) the magnitude of its maximum velocit d) the magnitude amar of its maximum acceleration a) 100 kg ww-

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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If the 100 kg (Figure B1) mass has a downward velocity of 0.5 m/s as it passes through its
equilibrium position. Each of the two springs has a stiffness k=180 kN/m , calculate:
a) the equivalent spring stiffness(
b) the natural frequency of the system
c) the magnitude of its maximum velocity
d) the magnitude amax of its maximum acceleration
100 ke
Figure B1
wiw
ww-
Transcribed Image Text:If the 100 kg (Figure B1) mass has a downward velocity of 0.5 m/s as it passes through its equilibrium position. Each of the two springs has a stiffness k=180 kN/m , calculate: a) the equivalent spring stiffness( b) the natural frequency of the system c) the magnitude of its maximum velocity d) the magnitude amax of its maximum acceleration 100 ke Figure B1 wiw ww-
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