Solving for Spring Constant: Displacement and Time Relationship

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The discussion focuses on calculating the spring constant (k) for a mass-spring system based on given displacement and time data. The mass is 14.3 g, and the frequency of oscillation is determined to be 1.45 cycles/sec. The spring constant is calculated using the formula k = m * (2 * pi * f)^2, resulting in a value of 1.19 N/m. Additionally, the general equation of oscillation is provided as x = x0*sin(ωt + φ), where the phase angle φ can be determined using the initial conditions. The thread concludes with a confirmation that the calculated k value is correct.
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Homework Statement



The graph of displacement versus time for a small mass at the end of a spring is shown. At t = 0, x = 0.43 cm. (a) If m = 14.3 g, find the spring constant, k. (b) Write the equation for displacement x as a function of time.

Homework Equations



f = (1/2pi) * SQRT (k/m)
f = 1/Period = 1/ 0.69 sec = 1.45 cycles/sec
SQRT (k/m) = 2 * pi * f

k = m * (2 * pi * f )^2

k = 0.0143 kg * (2 * pi * 1.45 cycles/sec
)^2


The Attempt at a Solution



1.19 N/m
 
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SORRY!
 
Your k value is correct.
The general equation of oscillation is
x = x0*sin(ωt + φ)
When t = 0, x = x0*sin(φ)
Put the values of the x and xo and find the value of φ. Then write the general equation.
 

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