Free body diagram v = 0 F = 0 -Vmax IN ÎN www.m x=0 x= x (a) (b) F = 0 +Vmax v = 0 IN IN m х%3 -X х— 0 (c) (d) F v = 0 IN x = 0 x= X (e) Figure 16.9 An object attached to a spring sliding on a frictionless surface is an uncomplicated simple harmonic oscillator. When displaced from equilibrium, the object performs simple harmonic motion that has an amplitude X and a period T. The object's maximum speed occurs as it passes through equilibrium. The stiffer the spring is, the smaller the period T. The greater the mass of the object is, the greater the period T.

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Author:Raymond A. Serway, Chris Vuille
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Chapter1: Units, Trigonometry. And Vectors
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 Simple Harmonic Motion: A Special Periodic Motion
• Describe a simple harmonic oscillator.
• Explain the link between simple harmonic motion and waves.

Free
body
diagram
v = 0
F = 0 -Vmax
IN
ÎN
www.m
x=0 x= x
(a)
(b)
F = 0 +Vmax
v = 0
IN
IN
m
х%3 -X х— 0
(c)
(d)
F v = 0
IN
x = 0 x= X
(e)
Figure 16.9 An object attached to a spring sliding on a frictionless surface is an uncomplicated simple harmonic oscillator. When displaced from
equilibrium, the object performs simple harmonic motion that has an amplitude X and a period T. The object's maximum speed occurs as it passes
through equilibrium. The stiffer the spring is, the smaller the period T. The greater the mass of the object is, the greater the period T.
Transcribed Image Text:Free body diagram v = 0 F = 0 -Vmax IN ÎN www.m x=0 x= x (a) (b) F = 0 +Vmax v = 0 IN IN m х%3 -X х— 0 (c) (d) F v = 0 IN x = 0 x= X (e) Figure 16.9 An object attached to a spring sliding on a frictionless surface is an uncomplicated simple harmonic oscillator. When displaced from equilibrium, the object performs simple harmonic motion that has an amplitude X and a period T. The object's maximum speed occurs as it passes through equilibrium. The stiffer the spring is, the smaller the period T. The greater the mass of the object is, the greater the period T.
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