Consider the spring mass damper system shown below. k ww m x(t) The forces of the spring and damper are represented by Fspring = kx and Fdamper = -bx' respectively, where k is the spring constant and b is the damping coefficient. The mass has an initial displacement +1 m and velocity 0 m/s.

Consider the spring mass damper system shown below. k ww m x(t) The forces of the spring and damper are represented by Fspring = kx and Fdamper = -bx' respectively, where k is the spring constant and b is the damping coefficient. The mass has an initial displacement +1 m and velocity 0 m/s.

Trigonometry (MindTap Course List)

10th Edition

ISBN:9781337278461

Author:Ron Larson

Publisher:Ron Larson

Chapter3: Additional Topics In Trigonometry

Section3.3: Vectors In The Plane

Problem 11ECP

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Question

SHOW COMPLETE SOLUTION.

Consider the spring mass damper system shown below.
k
ww
m
x(t)
==
The forces of the spring and damper are represented by Fspring = kx and Fdamper = −bx' respectively, where k is the
spring constant and b is the damping coefficient. The mass has an initial displacement +1 m and velocity 0 m/s.

3.
4.
Find x(t) for m= = 2 kg, k = 0.5 N·m, and b =
= {1, 1.5, 2} N · s/m.
What happens when the damping coefficient is being increased?
Suppose the damper has a damping coefficient of -1 N s/m. What happens to x(t)? Use m = 2 kg, k = 0.5 N. m.

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Step 1: Damped harmonic oscillator equation

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Step 2: Calculation for b=1

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Step 3: Calculation for b=1.5

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