stretch m Think & Prepare 1. Draw free body diagrams of m at the two locations, X and 2X. 2. From the diagram, which variable represents the amplitude of oscillations? 3. At which location does the mass have the maximum velocity? (a) Calculate the upward force on the object at its lowest point. Leave the answer in terms of variables m and g. N and a 0.25 kg-mass object is set in motion as m (b) If the spring has a force constant of 10.1 described, find the amplitude of the oscillations. (c) Find the maximum velocity. m

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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
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Maximum
stretch
m
Think & Prepare
1. Draw free body diagrams of m at the two locations, X and 2X.
2. From the diagram, which variable represents the amplitude of oscillations?
3. At which location does the mass have the maximum velocity?
(a) Calculate the upward force on the object at its lowest point. Leave the answer in terms of
variables m and g.
(b) If the spring has a force constant of 10.1
and a 0.25 kg-mass object is set in motion as
m
described, find the amplitude of the oscillations.
(c)
Find the maximum velocity.
Transcribed Image Text:Maximum stretch m Think & Prepare 1. Draw free body diagrams of m at the two locations, X and 2X. 2. From the diagram, which variable represents the amplitude of oscillations? 3. At which location does the mass have the maximum velocity? (a) Calculate the upward force on the object at its lowest point. Leave the answer in terms of variables m and g. (b) If the spring has a force constant of 10.1 and a 0.25 kg-mass object is set in motion as m described, find the amplitude of the oscillations. (c) Find the maximum velocity.
1. Suppose you attach the object with mass m to a vertical spring originally at rest, the spring stretches
to a new equilibrium position. Let the spring now bounce up and down by releasing the object from
rest at the spring's original rest length.
Spring's
rest length
AL = X.
Equilibrium
position
2X
m
Maximum
stretch
m
Think & Prepare
1. Draw free body diagrams of m at the two locations, X and 2X.
2. From the diagram, which variable represents the amplitude of oscillations?
3. At which location does the mass have the maximum velocity?
(a) Calculate the upward force on the object at its lowest point. Leave the answer in terms of
variables m and g.
Transcribed Image Text:1. Suppose you attach the object with mass m to a vertical spring originally at rest, the spring stretches to a new equilibrium position. Let the spring now bounce up and down by releasing the object from rest at the spring's original rest length. Spring's rest length AL = X. Equilibrium position 2X m Maximum stretch m Think & Prepare 1. Draw free body diagrams of m at the two locations, X and 2X. 2. From the diagram, which variable represents the amplitude of oscillations? 3. At which location does the mass have the maximum velocity? (a) Calculate the upward force on the object at its lowest point. Leave the answer in terms of variables m and g.
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