A ski jumper has the takeoff conditions shown. Determine the inclined distance d from the takeoff point A to the location where the skier first touches down in the landing zone, and the total time t during which the skier is in the air. For simplicity, assume that the landing zone BC is straight. 70 A 106 km/h 29 m -Landing Zone to 31.00 57 m BC = 40 m Answers: d = i tf = E

Elements Of Electromagnetics
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ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A ski jumper has the takeoff conditions shown. Determine the inclined distance d from the takeoff point A to the location where the
skier first touches down in the landing zone, and the total time t during which the skier is in the air. For simplicity, assume that the
landing zone BC is straight.
70
A
106 km/h
29 m
-Landing Zone
to
31.00
57 m
BC = 40 m
Answers:
d =
i
t; =
E
Transcribed Image Text:A ski jumper has the takeoff conditions shown. Determine the inclined distance d from the takeoff point A to the location where the skier first touches down in the landing zone, and the total time t during which the skier is in the air. For simplicity, assume that the landing zone BC is straight. 70 A 106 km/h 29 m -Landing Zone to 31.00 57 m BC = 40 m Answers: d = i t; = E
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