A student stretches a spring, attaches a 1.40 kg mass to it, and releases the mass from rest on a frictionless surface. The resulting oscillation has a period of 0.680 s and an amplitude of 26.0 cm. Determine the oscillation frequency, the spring constant, and the speed of the mass when it is halfway to the equilibrium position. HINT (a) the oscillation frequency (in Hz) Hz (b) the spring constant (in N/m) N/m (c) the speed of the mass (in m/s) when it is halfway to the equilibrium position m/s

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Chapter1: Units, Trigonometry. And Vectors
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A student stretches a spring, attaches a 1.40 kg mass to it, and releases the mass from rest on a frictionless surface. The resulting oscillation has a period of 0.680 s and an amplitude of
26.0 cm. Determine the oscillation frequency, the spring constant, and the speed of the mass when it is halfway to the equilibrium position.
HINT
(a) the oscillation frequency (in Hz)
Hz
(b) the spring constant (in N/m)
N/m
(c) the speed of the mass (in m/s) when it is halfway to the equilibrium position
m/s
Transcribed Image Text:A student stretches a spring, attaches a 1.40 kg mass to it, and releases the mass from rest on a frictionless surface. The resulting oscillation has a period of 0.680 s and an amplitude of 26.0 cm. Determine the oscillation frequency, the spring constant, and the speed of the mass when it is halfway to the equilibrium position. HINT (a) the oscillation frequency (in Hz) Hz (b) the spring constant (in N/m) N/m (c) the speed of the mass (in m/s) when it is halfway to the equilibrium position m/s
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