(e) If the angle of the incline 0, were to decrease, the value of friction force would:increase_decrease or remain the same. Justify your answer. (1) If the surfaces remain the same and the only thing that changes is 0, does mu change? (i) Based on the FBD, what force(s) will change when the angle changes? (i) If only the angle changes will the sled remain in equilibrium if the tension in the rope has not increased? (iv) Based on your answer which force should be used to determine the frictional force.
(e) If the angle of the incline 0, were to decrease, the value of friction force would:increase_decrease or remain the same. Justify your answer. (1) If the surfaces remain the same and the only thing that changes is 0, does mu change? (i) Based on the FBD, what force(s) will change when the angle changes? (i) If only the angle changes will the sled remain in equilibrium if the tension in the rope has not increased? (iv) Based on your answer which force should be used to determine the frictional force.
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Transcribed Image Text:increase_decrease or
(e) If the angle of the incline 6, were to decrease, the value of friction force would:
remain the same. Justify your answer.
(1) If the surfaces remain the same and the only thing that changes is 0, does mu change?
(ii) Based on the FBD, what force(s) will change when the angle changes?
(iii) If only the angle changes will the sled remain in equilibrium if the tension in the rope has not increased?
(iv) Based on your answer which force should be used to determine the frictional force.
Transcribed Image Text:M
An empty sled of mass M slides down a muddy hill with a constant speed of v.. The slope of the hill is inclined at an angle
of 0 with the horizontal as shown in the figure above.
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