k F X m HE Figure Q1 Figure Q1 shows a forced spring-mass system with damping, where mass m = 1 kg, spring constant k = 0.2 N/m, and damping coefficient c = 0.3 N-s/m. (a) This forced spring-mass system with damping can be described by the following differential equation: d'x(t) c dx(t) k + +x(t) == F(t) dt² m dt m m
k F X m HE Figure Q1 Figure Q1 shows a forced spring-mass system with damping, where mass m = 1 kg, spring constant k = 0.2 N/m, and damping coefficient c = 0.3 N-s/m. (a) This forced spring-mass system with damping can be described by the following differential equation: d'x(t) c dx(t) k + +x(t) == F(t) dt² m dt m m
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
Question
Sketch frequency response of the system from part (a) in the form of Bode plot as accurately as you can.
![k
F
X
m
HE
Figure Q1
Figure Q1 shows a forced spring-mass system with damping, where
mass m = 1 kg, spring constant k = 0.2 N/m, and damping coefficient c
= 0.3 N-s/m.
(a) This forced spring-mass system with damping can be described
by the following differential equation:
d'x(t) c dx(t) k
+
+x(t) == F(t)
dt²
m dt
m
m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fcff528ee-16c9-464c-86ce-bf65f2d82b06%2Fae3340b0-ba3d-4d89-8db1-20243af2353e%2Fvcpkmct_processed.jpeg&w=3840&q=75)
Transcribed Image Text:k
F
X
m
HE
Figure Q1
Figure Q1 shows a forced spring-mass system with damping, where
mass m = 1 kg, spring constant k = 0.2 N/m, and damping coefficient c
= 0.3 N-s/m.
(a) This forced spring-mass system with damping can be described
by the following differential equation:
d'x(t) c dx(t) k
+
+x(t) == F(t)
dt²
m dt
m
m
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