You attach a 0.200 kg mass to a frictionless horizontal spring and set it in oscillation. At time t=0 , it is at equilibrium moving to the left (in the negative horizontal direction). The maximum distance the object moves from equilibrium is 3.00 m. The next time (after t=0 ) that it reaches equilibrium (now moving to the right) is at the time t=2.60 s. Graph the horizontal displacement of the mass versus time, from t=0 s to t=5.20 s. Make sure to label your amplitude and period on the graph. Find the maximum speed of the mass during its oscillation. Find the spring constant k
You attach a 0.200 kg mass to a frictionless horizontal spring and set it in oscillation. At time t=0 , it is at equilibrium moving to the left (in the negative horizontal direction). The maximum distance the object moves from equilibrium is 3.00 m. The next time (after t=0 ) that it reaches equilibrium (now moving to the right) is at the time t=2.60 s. Graph the horizontal displacement of the mass versus time, from t=0 s to t=5.20 s. Make sure to label your amplitude and period on the graph. Find the maximum speed of the mass during its oscillation. Find the spring constant k
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You attach a 0.200 kg mass to a frictionless horizontal spring and set it in oscillation. At time t=0 , it is at equilibrium moving to the left (in the negative horizontal direction).
The maximum distance the object moves from equilibrium is 3.00 m. The next time (after t=0 ) that it reaches equilibrium (now moving to the right) is at the time t=2.60 s.
Graph the horizontal displacement of the mass versus time, from t=0 s to t=5.20 s. Make sure to label your amplitude and period on the graph.
Find the maximum speed of the mass during its oscillation.
Find the spring constant k
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