Projectile Motion Ichiro throws a baseball with an initial speed of 145 feet per second at an angle of 20 ∘ to the horizontal. The ball leaves Ichiro’s hand at a height of 5 feet. a. Find parametric equations that model the position of the ball as a function of time. b. How long is the ball in the air? c. Determine the horizontal distance that the ball travels. d. When is the ball at its maximum height? Determine the maximum height of the ball. e. Using a graphing utility, simultaneously graph the equations found in part (a).
Projectile Motion Ichiro throws a baseball with an initial speed of 145 feet per second at an angle of 20 ∘ to the horizontal. The ball leaves Ichiro’s hand at a height of 5 feet. a. Find parametric equations that model the position of the ball as a function of time. b. How long is the ball in the air? c. Determine the horizontal distance that the ball travels. d. When is the ball at its maximum height? Determine the maximum height of the ball. e. Using a graphing utility, simultaneously graph the equations found in part (a).
Projectile Motion Ichiro throws a baseball with an initial speed of 145 feet per second at an angle of
to the horizontal. The ball leaves Ichiro’s hand at a height of 5 feet.
a. Find parametric equations that model the position of the ball as a function of time.
b. How long is the ball in the air?
c. Determine the horizontal distance that the ball travels.
d. When is the ball at its maximum height? Determine the maximum height of the ball.
e. Using a graphing utility, simultaneously graph the equations found in part (a).
Thomas' Calculus: Early Transcendentals (14th Edition)
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