How Does a Spring's Vibration Change Over Time?

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The discussion focuses on the vibration of a spring with a spring constant of 230 N/m and an amplitude of 12.0 cm when a 0.530 kg mass is attached. Participants are attempting to derive the motion equation, identify maximum and minimum lengths, and calculate displacement, force, and maximum speed at specific times. There is confusion regarding the phase angle and the correct application of formulas, particularly in determining times after t = 0. The periodic nature of the motion is emphasized, with references to Hooke's law for force calculations. Overall, the thread highlights the complexities of solving harmonic motion problems and the importance of accurate initial conditions.
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A spring with spring constant 230 N/m vibrates with an amplitude of 12.0 cm when 0.530 kg hangs from it.

(a) What is the equation describing this motion as a function of time? Assume the mass passes through the equilibrium point, toward positive x (upward), at t = 0.120 s.

The equation is:
http://www.webassign.net/symImages/c/b/444b09c7ddeb5c844763b063d17f67.png

(b) At what times will the spring have its maximum and minimum lengths? (Consider only the first instances after t = 0.)

(c) What is the displacement and direction at t = 0?

(d) What is the force and its direction exerted by the spring at t = 0?

(e) What is the maximum speed?

When is it first reached after t = 0?
 
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So? What have you tried so far?
 
I was able to find both A and w, but I can't find the phase angle...and i think everything else that follows requires it.
 
You have x(t)=Acos(wt+phi). Also, you know x(0.120)=0. Do you think this might be sufficient to determine phi?
 
(In addition, of course, you have to note that x is increasing at 0.120 s)
 
I need help solving for c. I know that minimum length equation is -12=12*cos(wt+phi) and maximum is 12=12*cos(wt+phi), and I only w and phi, how do I solve for t using algebraic operations?
 
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Please, anyone?
 
What IS c? Your original problem made no mention of "A", "w", or "C". Are you referring to phi, the phase angle still? But then you end with "how do I solve for t using algebraic operations?" Did you mean "t" instead of "c"? Which t do you want? t is a variable.
 
OK, I was able to figure out parts a and c. But for b) and e) when I solved for t, it's negative. So how to I find instances after t=0?

Also, Isn't d) just F=-kx? But the force given by the book is so small compared to my answer.
 
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physicsss said:
OK, I was able to figure out parts a and c. But for b) and e) when I solved for t, it's negative. So how to I find instances after t=0?
The motion is periodic: it repeats exactly every period. (What's the period?)

Also, Isn't d) just F=-kx? But the force given by the book is so small compared to my answer.
Yes, the force obeys Hooke's law. That probably means you found the wrong displacement at t = 0.
 

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