A mass m is attached to a spring of force constant 75.0 N/m and allowed to oscillate on a smooth horizontal surface. The figure below shows a graph of its velocity as a function of timet. v, (cm/s) 20 ININ 10 0.2 0.6 1.0 1.4 20 1.8 Calculate (a) (b ) the period, the frequency, and the angular frequency of this motion. What is the amplitude (in cm), and at what time (in s) t 0 does the mass reach this position?

College Physics
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Chapter1: Units, Trigonometry. And Vectors
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A mass m is attached to a spring of force constant 75.0 N/m and allowed to oscillate on a smooth horizontal surface. The figure below shows a graph of its
velocity as a function of timet.
v, (cm/s)
20
ININ
o0.2 0.6 1.0 1.4 1.8
-20-
Calculate
(a)
(b
) the period,
the frequency,
and the angular frequency of this motion.
What is the amplitude (in cm), and at what time (in s) t 0 does the mass reach this position?
Transcribed Image Text:A mass m is attached to a spring of force constant 75.0 N/m and allowed to oscillate on a smooth horizontal surface. The figure below shows a graph of its velocity as a function of timet. v, (cm/s) 20 ININ o0.2 0.6 1.0 1.4 1.8 -20- Calculate (a) (b ) the period, the frequency, and the angular frequency of this motion. What is the amplitude (in cm), and at what time (in s) t 0 does the mass reach this position?
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