mass of 10 kN s²/m is suspended from a spring whose spring constant 40 kN/m. The mass is subjected to a dynamic load F(t) = 2sin (6t) kN. sume no energy loss during the vibration (i.e., damping is ignored). What is the natural circular frequency of the system? What is the natural period? Find the forced vibration (i.e., particular solution) of the system. Mass m wwww F(t)

Elements Of Electromagnetics
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Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A mass of 10 kN s²/m is suspended from a spring whose spring constant
40 kN/m. The mass is subjected to a dynamic load F(t) = 2sin (6t) kN.
sume no energy loss during the vibration (i.e., damping is ignored).
(a) What is the natural circular frequency of the system? What is the natural
period?
(b) Find the forced vibration (i.e., particular solution) of the system.
Mass m
www
F(t)
Transcribed Image Text:A mass of 10 kN s²/m is suspended from a spring whose spring constant 40 kN/m. The mass is subjected to a dynamic load F(t) = 2sin (6t) kN. sume no energy loss during the vibration (i.e., damping is ignored). (a) What is the natural circular frequency of the system? What is the natural period? (b) Find the forced vibration (i.e., particular solution) of the system. Mass m www F(t)
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