Maximum Speed Formula for Simple Harmonic Motion

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The discussion revolves around proving that the maximum speed (Vmax) of a mass on a spring in simple harmonic motion is given by the formula 2(pi)fA. A participant expresses difficulty in rearranging the relevant formulas and seeks assistance. Another contributor suggests using the energy equation Et = 1/2mv^2 + 1/2kx^2 to derive the relationship, emphasizing the importance of expressing total energy in terms of amplitude. The conversation hints at the use of calculus or trigonometric methods to simplify the proof. The exchange highlights the need for a solid understanding of the underlying physics concepts to solve the problem effectively.
roughneck84
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I have been torturing myself with this problem for a couple weeks now and I am stumped. The unit I am working on is called simple harmonics. The question is:
Prove that the maximum speed (Vmax) of a mass on a spring is given by 2(pi)fA
I am guessing that the question wants me to re-arrange one of the formulas that was learned in this chapter but i am just lost.

Here are the formulas related to this unit.
Fx = -kx , W=1/2kx^2, T=[2(pi)r] / v , Et = 1/2mv^2 + 1/2kx^2, f = 1/2(pi) sq_rt(k/m)
or f = 1/2(pi) sq_rt a/-x

Please any help would be greatly appreciated
 
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OK. First off are you in a calculus based course? I ask because this can be proved in one to two lines with calculus.
 
somewhat. we learned trigonomic method. cosine law and pathagorean theorem
 
anyone ??
 
Do you know how to take a derivative?

If not, then try starting the problem this way:

Start with your energy equation:

Et = 1/2mv^2 + 1/2kx^2

First, try to get Et in terms of the wave's amplitude.

After this, fill in all the information for when v=v_max. Can you take it from here? If not, show me how far you can get.
 
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