x(1) -1- (0.53, 1.78) (0,0.8) (21,-1.3) (3.7,0.9) 4 (5.3,-0.7) (6.86, 0.5) The damping ratio of the system. Its natural frequency w., damping corstart c, and stiffness coefficient k; for (m-1.25 kg). III- The amplitude of the motion if the phase angle is given as (=0.4 rad). IV- Its initial conditions. 10 Figure (2) 3- The time response of a liner spring-mass-damper system with the mass of (m), the stiffness coefficient of (k), and a dampirg constant of (c) is given below in figure (2) with a set of coordinates marked by fillec circles. x(t) is in meters, t is in seconds. Indicate the units of all quantities involved in your solutions when calculate t[sec]

x(1) -1- (0.53, 1.78) (0,0.8) (21,-1.3) (3.7,0.9) 4 (5.3,-0.7) (6.86, 0.5) The damping ratio of the system. Its natural frequency w., damping corstart c, and stiffness coefficient k; for (m-1.25 kg). III- The amplitude of the motion if the phase angle is given as (=0.4 rad). IV- Its initial conditions. 10 Figure (2) 3- The time response of a liner spring-mass-damper system with the mass of (m), the stiffness coefficient of (k), and a dampirg constant of (c) is given below in figure (2) with a set of coordinates marked by fillec circles. x(t) is in meters, t is in seconds. Indicate the units of all quantities involved in your solutions when calculate t[sec]

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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