A particle with mass 1.43 kg oscillates horizontally at the end of a horizontal spring. A student measures an amplitude of0.839 m and a duration of 125 s for 73 cycles of oscillation. Find the frequency, f, the speed at the equilibrium position, vmax,the spring constant, k, the potential energy at an endpoint, Umax, the potential energy when the particle is located 34.1% of theamplitude away from the equiliibrium position, U, and the kinetic energy, K, and the speed, v, at the same position.f =HzUmaxm/sk =N/mUmaxJU =J K =JV =m/s

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A particle with mass 1.43 kg oscillates horizontally at the end of a horizontal spring. A student measures an amplitude of 0.839 m and a duration of 125 s for 73 cycles of oscillation. Find the frequency, f, the speed at the equilibrium position, Umax, the spring constant, k, the potential energy at an endpoint, Umax, the potential energy when the particle is located 34.1% of the amplitude away from the equiliibrium position, U, and the kinetic energy, K, and the speed, v, at the same position. f = Hz Umax = m/s k = N/m Umax = J U = J K = J v = m/s

A particle with mass 1.43 kg oscillates horizontally at the end of a horizontal spring. A student measures an amplitude of 0.839 m and a duration of 125 s for 73 cycles of oscillation. Find the frequency, f, the speed at the equilibrium position, Umax, the spring constant, k, the potential energy at an endpoint, Umax, the potential energy when the particle is located 34.1% of the amplitude away from the equiliibrium position, U, and the kinetic energy, K, and the speed, v, at the same position. f = Hz Umax = m/s k = N/m Umax = J U = J K = J v = m/s

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Question

A particle with mass 1.43 kg oscillates horizontally at the end of a horizontal spring. A student measures an amplitude of
0.839 m and a duration of 125 s for 73 cycles of oscillation. Find the frequency, f, the speed at the equilibrium position, vmax,
the spring constant, k, the potential energy at an endpoint, Umax, the potential energy when the particle is located 34.1% of the
amplitude away from the equiliibrium position, U, and the kinetic energy, K, and the speed, v, at the same position.
f =
Hz
Umax
m/s
k =
N/m
Umax
J
U =
J K =
J
V =
m/s

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