What Is the Spring Constant in This Simple Harmonic Motion Problem?

AI Thread Summary
The discussion revolves around calculating the spring constant for a 12.0-N object in simple harmonic motion attached to a vertical spring. The user initially misapplied the formula for the spring constant, mistakenly using the amplitude as the displacement. After receiving guidance, they recalled the relationship between angular frequency and the spring constant, leading to a successful resolution of the problem. The conversation highlights the importance of understanding the underlying equations of motion in harmonic systems. Ultimately, the user was able to solve the problem independently after clarification.
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Homework Statement



A 12.0-N object is oscillating in simple harmonic motion at the end of an ideal vertical spring. Its vertical position y as a function of time t is given by:

y(t)=4.50cmcos[(19.5s−1)t−π/8].

(a) What is the spring constant of the spring?

(b) What is the maximum acceleration of the object?

(c) What is the maximum speed that the object reaches?

(d) How long does it take the object to go from its highest point to its lowest point?

Homework Equations


F=-kx

a=kx/m

The Attempt at a Solution


I am unsure as to where I need to start for part a.

12N=-k(.045m) since the amplitude is the max displacement of the spring.

12N/.045m = k ==> 267N/m. However, this is wrong.

I think I'm just missing something very obvious. Any help is very appreciated!
 
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I would begin with comparing the general equation for position with this equation

y(t)=4.50 cos(19.5t−\dfrac{\pi}{8})
y(t)=A cos(\omega t−\varphi)

We also know that \omega = \sqrt{\dfrac{k}{m}} where k is the spring constant.
 
Totally forgot about the general equation that describes harmonics. Whoops.

Well, after you told me that, I figured everything out on my own. Thank you!
 

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