Consider the suspension model given below. The system moves across a terrain that car approximated as a sinusoidal shape, with a distance of 12 m between each peak and a dista of 12 cm between distance from peak to valley. What is the acceleration amplitude felt w the speed is: (m = 300 kg, k= 8 x 104 N/m, 3 = 0.15) (a) 50 m/s (b) 80 m/s (c) 140 m/s m Runway

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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Consider the suspension model given below. The system moves across a terrain that can be
approximated as a sinusoidal shape, with a distance of 12 m between each peak and a distance
of 12 cm between distance from peak to valley. What is the acceleration amplitude felt when
the speed is: (m = 300 kg, k= 8 x 104 N/m, 3 = 0.15)
(a) 50 m/s
(b) 80 m/s
(c) 140 m/s
eeeee
m
Runway
Transcribed Image Text:Consider the suspension model given below. The system moves across a terrain that can be approximated as a sinusoidal shape, with a distance of 12 m between each peak and a distance of 12 cm between distance from peak to valley. What is the acceleration amplitude felt when the speed is: (m = 300 kg, k= 8 x 104 N/m, 3 = 0.15) (a) 50 m/s (b) 80 m/s (c) 140 m/s eeeee m Runway
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