A mass of 48 units is in equilibrium suspended from a spring. The mass is pulled down 1.4 feet and released. Find the period, frequency, and amplitude of the resulting simple harmonic motion. Assume a spring constant of k = 3. %3D period frequency amplitude ft Write an equation of the motion in terms of t. y =
A mass of 48 units is in equilibrium suspended from a spring. The mass is pulled down 1.4 feet and released. Find the period, frequency, and amplitude of the resulting simple harmonic motion. Assume a spring constant of k = 3. %3D period frequency amplitude ft Write an equation of the motion in terms of t. y =
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Transcribed Image Text:A mass of 48 units is in equilibrium suspended from a spring. The mass is pulled down 1.4 feet and released. Find the period, frequency, and amplitude of the resulting simple harmonic motion. Assume a spring
constant of k = 3.
%3D
period
frequency
amplitude
ft
Write an equation of the motion in terms of t.
y =
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