A luge and its rider, with a total mass of 85.0 kg, emerge from a downhill track onto a horizontal straight track with an initial speed of 39.0 m/s. If a force slows them to a stop at a constant rate of 4.80 m/s², (a) what magnitude F is required for the force, (b) what distance d do they travel while slowing, and (c) what work W is done on them by the force? What are (d) F, (e) d, and (f) W if they, instead, slow at 9.60 m/s²?

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Chapter1: Units, Trigonometry. And Vectors
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A luge and its rider, with a total mass of 85.0 kg, emerge from a downhill track onto a horizontal straight track with an initial speed of
39.0 m/s. If a force slows them to a stop at a constant rate of 4.80 m/s², (a) what magnitude F is required for the force, (b) what distance
d do they travel while slowing, and (c) what work W is done on them by the force? What are (d) F, (e) d, and (f) W if they, instead, slow at
9.60 m/s²?
(a) Number i 170
(b) Number i 380.3
(c) Number i 64642.5
(d) Number 816
(e) Number 79.2
(f) Number i 64642.5
Units
Units
Units
Units
N
Units m
Units
N
m
J
J
Transcribed Image Text:A luge and its rider, with a total mass of 85.0 kg, emerge from a downhill track onto a horizontal straight track with an initial speed of 39.0 m/s. If a force slows them to a stop at a constant rate of 4.80 m/s², (a) what magnitude F is required for the force, (b) what distance d do they travel while slowing, and (c) what work W is done on them by the force? What are (d) F, (e) d, and (f) W if they, instead, slow at 9.60 m/s²? (a) Number i 170 (b) Number i 380.3 (c) Number i 64642.5 (d) Number 816 (e) Number 79.2 (f) Number i 64642.5 Units Units Units Units N Units m Units N m J J
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