USAPhO 2009 F=MA exam #13, (spring SHM)

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A mass attached to a spring experiences oscillations, and when the spring constant is doubled while maintaining the same initial velocity, the amplitude of oscillation decreases. The relationship between spring constant (k) and amplitude (A) suggests that if k is doubled, the amplitude becomes (1/√2)A. The potential energy (PE) of the system is directly related to the spring constant and the displacement from equilibrium. A connection between potential energy and amplitude is established, indicating that as k increases, the energy distribution changes, affecting amplitude. The discussion emphasizes the importance of understanding the relationship between kinetic energy, potential energy, and oscillation amplitude in spring systems.
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Homework Statement



Late correction, this is the 2008 F=ma exam: http://www.aapt.org/Programs/contests/upload/olympiad_2008_fnet_ma.pdf

A mass is attached to the wall by a spring of constant k. When the spring is at its natural length,
the mass is given a certain initial velocity, resulting in oscillations of amplitude A. If the spring
is replaced by a spring of constant 2k, and the mass is given the same initial velocity, what is the
amplitude of the resulting oscillation?

Homework Equations


Uh... This is the problem here. I might just be forgetful, but I cannot recall any equation relating amplitude and f, T, k, or v.

T = 2∏√(m/k) is the most relevant formula I could recall.

The Attempt at a Solution



Intuition led me to choose the correct answer: (1/√2)A

I know if k is doubled, the amplitude will decrease. I had a feeling there is a relationship k ∝ A^2 given a constant v_initial and mass. Can anyone shed some light on this?
 
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Think about KE and PE. What did doubling the spring constant do to the total energy of the system?
 
PE = (kx2)/2

Doubling k doubles the PE at any point x.

Thank you. But now I'm trying to think of an equation relating PE and Amplitude and I can't think of anything.
 
What is amplitude?
 
Voko, I don't know what you're asking. If you want the definition of amplitude, it is the distance (in this case) from equilibrium to the maximum compression/ extension of the spring.

I'm still thinking of an equation relating PE with amplitude.
 
So amplitude has something to do with distance. So does PE. Can you connect the two?
 
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Oh wow! I must have been suffering from a massive brain fart.

PE = (kx2)/2

Given the same kinetic energy (v stays constant), and a doubled spring constant, PE1 = PE2 = (2k(x/√2)2)/2

x2 = (1/√2)A
Thanks.
 

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