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Chapter14 Test
Chapter14 Test
1.
The displacement of vertically oscillating masses on springs away from their equilibrium positions are shown in the graphs on the left.
What is your best estimate of the period of oscillation for the mass in the graph labeled “B”.
Enter your response using SI units of time rounded to a reasonable precision based upon the data. Do NOT enter the units in the response box. Any value within a reasonable range for the period will be accepted.
2.
The displacement of vertically oscillating masses on springs away from their equilibrium positions are shown in the graphs on the left.
What is your best estimate of the frequency of oscillation for the mass in the graph labeled “A”.
Enter your response using SI units of frequency rounded to a reasonable precision based upon the data. Do NOT enter the units in the response box. Any value within a reasonable range for the frequency will be accepted.
3.
The displacement of vertically oscillating masses on springs away from their equilibrium positions are shown in the graphs on the left. In each case, the oscillating mass has a mass of 1.00 kg.
What is your best estimate of the spring constant of the spring producing the oscillation in the graph labeled “B”.
Enter your response using SI units for the spring constant rounded to a reasonable precision based upon the data. Do NOT enter the units in the response box. Any value within a reasonable range for the spring constant will be accepted.
4.
Imagine that you’re performing a Physics 106 lab, and you find the four graphs on the left for the angular displacement of oscillating pendulums away from their equilibrium positions.
What is your best estimate of the length of the pendulum in the graph labeled “D”.
Enter your response using SI units for length rounded to a reasonable precision based upon the data. Do NOT enter the units in the response box. Any value within a reasonable range for the pendulum length will be accepted.