#3) Use the figure for projectile motion. You are working on your jump shot. The magnitude of the initial velocity for the ball is vo = 9.5 m/s and the angle you launch it is at 37.0°. Note the ball's initial starting height is h = 1.90 m. Most of your points will come from setting up the equations correctly and your algebra manipulation prior to plugging in numbers. Numbers last. Report answers to 3 sig figs. ECANSU h (A) Find the total time the ball is in the air, from h to the time it hits the ground. (B) Find the maximum horizontal distance the person can throw ball given these conditions.
#3) Use the figure for projectile motion. You are working on your jump shot. The magnitude of the initial velocity for the ball is vo = 9.5 m/s and the angle you launch it is at 37.0°. Note the ball's initial starting height is h = 1.90 m. Most of your points will come from setting up the equations correctly and your algebra manipulation prior to plugging in numbers. Numbers last. Report answers to 3 sig figs. ECANSU h (A) Find the total time the ball is in the air, from h to the time it hits the ground. (B) Find the maximum horizontal distance the person can throw ball given these conditions.
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Transcribed Image Text:#3) Use the figure for projectile motion. You are working on your
jump shot. The magnitude of the initial velocity for the ball is vo =
9.5 m/s and the angle you launch it is at 37.0°. Note the ball's
initial starting height is h = 1.90 m. Most of your points will come
from setting up the equations correctly and your algebra
manipulation prior to plugging in numbers. Numbers last. Report
answers to 3 sig figs. ECANSU
h
(A) Find the total time the ball is in the air, from h to the time it hits the ground.
(B) Find the maximum horizontal distance the person can throw ball given these conditions.
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