2. The 4.2 kg box shown below is initially subjected to a 6 N force and is travelling across a rough surface at 5 m/s. After the 6 N force is removed, the box slows down due to the friction present. The coefficient of Kineut mcuon between the box and the surface is μ = v.3. Answer the following questions. 5 m/s a. Draw and label a free-body diagram of the box after the 6 N force is removed using S.P.R.E.A.D. Do not label the figure provi b. From the free-body diagram above, which forces impart a significant impulse as the box slows down? Justify your response. c. Using the Principle of Linear Momentum & Impulse, how long will it take the box to stop.? Show your work. Magnitude rounded to 3 sig. fig. Units d. Can you use momentum and impulse to determine how far the box travels before it stops? Why or why not?
2. The 4.2 kg box shown below is initially subjected to a 6 N force and is travelling across a rough surface at 5 m/s. After the 6 N force is removed, the box slows down due to the friction present. The coefficient of Kineut mcuon between the box and the surface is μ = v.3. Answer the following questions. 5 m/s a. Draw and label a free-body diagram of the box after the 6 N force is removed using S.P.R.E.A.D. Do not label the figure provi b. From the free-body diagram above, which forces impart a significant impulse as the box slows down? Justify your response. c. Using the Principle of Linear Momentum & Impulse, how long will it take the box to stop.? Show your work. Magnitude rounded to 3 sig. fig. Units d. Can you use momentum and impulse to determine how far the box travels before it stops? Why or why not?
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Transcribed Image Text:2. The 4.2 kg box shown below is initially subjected to a 6 N force and is travelling across a rough surface at
5 m/s. After the 6 N force is removed, the box slows down due to the friction present. The coefficient of
Kineut mcuon between the box and the surface is μ = v.3. Answer the following questions.
5 m/s
a. Draw and label a free-body diagram of the box after the 6 N force is
removed using S.P.R.E.A.D. Do not label the figure provi
b. From the free-body diagram above, which forces impart a significant impulse as the box slows down?
Justify your response.
c. Using the Principle of Linear Momentum & Impulse, how long will it take the box to stop.? Show your
work.
Magnitude rounded to 3 sig. fig.
Units
d. Can you use momentum and impulse to determine how far the box travels before it stops? Why or why
not?
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