AMAAA 2 2 -2 -4 The graph represents the position (cm) as a function of time (s) for a 4 kg mass attached to a spring. Creat A. What is the amplitude, period, and frequency of the oscillation? Amp = 3 perved = B. What is the spring constant? 2f () = 12.57N/m C. How much spring potential energy is there in the system when t-3 s2 D. Estimate the mass's velocity at t=4.5 s.
AMAAA 2 2 -2 -4 The graph represents the position (cm) as a function of time (s) for a 4 kg mass attached to a spring. Creat A. What is the amplitude, period, and frequency of the oscillation? Amp = 3 perved = B. What is the spring constant? 2f () = 12.57N/m C. How much spring potential energy is there in the system when t-3 s2 D. Estimate the mass's velocity at t=4.5 s.
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Transcribed Image Text:AMAAA
2
2
-2
-4
The graph represents the position (cm) as a function of time (s) for a 4 kg mass attached to a
spring.
Creat
A. What is the amplitude, period, and frequency of the oscillation? Amp = 3 perved =
B. What is the spring constant? T(m) = 12.57N/m
C. How much spring potential energy is there in the system when t=3 s2
D. Estimate the mass's velocity at t=4.5 s.
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Step 1: Identification of physical quantities in question
VIEWStep 2: Introducing the basic terms of amplitude time period and frequency
VIEWStep 3: Calculation for the spring constant
VIEWStep 4: Calculation for potential energy of spring
VIEWStep 5: Calculation of speed of mass t=4.5sec
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