A telemetry system is used to quantify kinematics values of a ski jumper immediately before she leaves the ramp, as shown. The system gathers the following information: r= 500 ft 0 = 25° e= 0.07 rad/s Ö= 0.06 rad/s? Determine (a) the velocity of the skier immediately before she leaves the jump, (b) the acceleration of the skier at this instant, (c) (5 additional points if your solve this correctly) the distance of the jump d neglecting lift and air resistance. Note: In projectile motion, if the initial angle of projection 0 is below the horizontal, the initial y-component of the velocity is directed downward. i=-105 f/s F = -10 ft/s? 30 10 t

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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A telemetry system is used to quantify kinematics values of a ski jumper immediately before
she leaves the ramp, as shown. The system gathers the following information:
r= 500 ft
0 = 25°
e= 0.07 rad/s
Ö= 0.06 rad/s?
Determine (a) the velocity of the skier immediately before she leaves the jump, (b) the acceleration of the
skier at this instant, (c) (5 additional points if your solve this correctly) the distance of the jump d
neglecting lift and air resistance. Note: In projectile motion, if the initial angle of projection 0 is below
the horizontal, the initial y-component of the velocity is directed downward.
i=-105 f/s
F = -10 ft/s?
30
10 t
Transcribed Image Text:A telemetry system is used to quantify kinematics values of a ski jumper immediately before she leaves the ramp, as shown. The system gathers the following information: r= 500 ft 0 = 25° e= 0.07 rad/s Ö= 0.06 rad/s? Determine (a) the velocity of the skier immediately before she leaves the jump, (b) the acceleration of the skier at this instant, (c) (5 additional points if your solve this correctly) the distance of the jump d neglecting lift and air resistance. Note: In projectile motion, if the initial angle of projection 0 is below the horizontal, the initial y-component of the velocity is directed downward. i=-105 f/s F = -10 ft/s? 30 10 t
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