Extra Credit Computation In the figure, a T-bar ski tow pulls a skier up a hill inclined at 10° above horizontal. The skier starts from rest and is pulled by a cable that exerts a tension of 300 N at an angle of 30° above the surface of the hill. The mass of the skier is 60 kg and the effective coefficient of kinetic friction between the skis and the snow is 0.100. (a) Draw a force diagram for the skier. FN 60 FT 3000 Fg L 0-40° F9 11 F911M Sin 40 FgMa cos 40 up the hill? (b) What is the skier's acceleration = = 377.96N 4504N 30° 10°
Extra Credit Computation In the figure, a T-bar ski tow pulls a skier up a hill inclined at 10° above horizontal. The skier starts from rest and is pulled by a cable that exerts a tension of 300 N at an angle of 30° above the surface of the hill. The mass of the skier is 60 kg and the effective coefficient of kinetic friction between the skis and the snow is 0.100. (a) Draw a force diagram for the skier. FN 60 FT 3000 Fg L 0-40° F9 11 F911M Sin 40 FgMa cos 40 up the hill? (b) What is the skier's acceleration = = 377.96N 4504N 30° 10°
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Transcribed Image Text:Extra Credit
Computation
In the figure, a T-bar ski tow pulls a skier up a hill inclined at 10°
above horizontal. The skier starts from rest and is pulled by a cable that
exerts a tension of 300 N at an angle of 30° above the surface of the
hill. The mass of the skier is 60 kg and the effective coefficient of
kinetic friction between the skis and the snow is 0.100.
(a) Draw a force diagram for the skier.
FN
60
FT
3000
Fg L
0-40°
F9 11
F911M Sin 40
FgMa cos 40
up the hill?
(b) What is the skier's acceleration
=
= 377.96N
4504N
30°
10°
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