For the simple harmonic motion laboratory simulation exercise, we used a cart that can oscillate between two springs with an effective spring constant. The plot of the resulting velocity versus time for a 1.0 kg cart is as shown. All units are SI. velocity vs. Time > 1.0 0.5 0.0 -0.5- -1.0 0 The phase constant is 1 The spring constant is The amplitude of motion is 2 Use the plot and the SHM equations x(t)- A cos (wt +), u(t)=-wA sin (cot + p), and a(t)=-w²A cos(at + p) to answer the following questions. The period of oscillation is 3 Time (s) Drag answer here Drag answer here Drag answer here 4 Drag answer here 5 None of these 0.08 m 0.5 S None of these. 0.05 m 0.125 N/m

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For the simple harmonic motion laboratory simulation exercise, we used a cart that can oscillate between two springs with an effective spring constant. The plot of the resulting velocity versus time for a 1.0 kg cart is as shown. All units are SI. velocity vs. Time > 1.0 0.5 0.0 -0.5 -1.0 m 2 The phase constant is 1 The spring constant is Use the plot and the SHM equations x(t)- A cos (wt + p), u(t)=-wA sin (wot + p), and a(t) = -w²A cos(wat + p) to answer the following questions. The amplitude of motion is 3 Time (3) The period of oscillation is Drag answer here Drag answer here Drag answer here 4 Drag answer here 5 None of these 0.08 m 0.5 s None of these. 0.05 m 0.125 N/m