A package of mass m = 6.00 kg is released on a 53.1° incline, a distance D= 4.00 m from a long spring with force constant 1.10 x 102 N/m that is attached at the bottom of the incline (Figure 1). The coefficients of friction between the package and incline are μ = 0.400 and 0.200. The mass of the spring is negligible. (a) What is the maximum Figure m 0 = 53.1° 1 of 1 Part L Correct Find the total work done by the force of friction over the entire trip. Express your answer with the appropriate units. ► View Available Hint(s) W₁ = -75.1 J Submit Previous Answers Answer Requested As you can see, this is in accordance with your result from Part J. For the steps and strategies involved in solving this problem, you may view the Video Tutor Solution.

A package of mass m = 6.00 kg is released on a 53.1° incline, a distance D= 4.00 m from a long spring with force constant 1.10 x 102 N/m that is attached at the bottom of the incline (Figure 1). The coefficients of friction between the package and incline are μ = 0.400 and 0.200. The mass of the spring is negligible. (a) What is the maximum Figure m 0 = 53.1° 1 of 1 Part L Correct Find the total work done by the force of friction over the entire trip. Express your answer with the appropriate units. ► View Available Hint(s) W₁ = -75.1 J Submit Previous Answers Answer Requested As you can see, this is in accordance with your result from Part J. For the steps and strategies involved in solving this problem, you may view the Video Tutor Solution.

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Question

A package of mass m = 6.00 kg is released on a 53.1°
incline, a distance D = 4.00 m from a long spring with force
constant 1.10 x 10² N/m that is attached at the bottom of
the incline (Figure 1). The coefficients of friction between the
package and incline are s = 0.400 and k = 0.200. The mass
of the spring is negligible. (a) What is the maximum
Figure
m
D
www.k
0 = 53.1°
1 of 1
▼
Part L
Correct
Find the total work done by the force of friction over the entire trip.
Express your answer with the appropriate units.
► View Available Hint(s)
W₁ = -75.1 J
Submit
Previous Answers
Answer Requested
As you can see, this is in accordance with your result from Part J.
For the steps and strategies involved in solving this problem, you may view the Video Tutor Solution.

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Step 1: Know the basic concepts:

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Step 2: Draw a diagram and find the expression for the normal force:

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Step 3: (f) Calculate the friction force:

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Step 4: Find the initial total energy of the system.

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Step 5: Find the total final energy of the system:

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Step 6: (g) Calculate the maximum distance to which the spring is compressed;

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Step 7: solution

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