5. A basketball is thrown from the roof of the school building as part of a science experiment examining gravity. The basketball is thrown from 25 feet above the ground at an initial velocity of 40 feet per second and at an angle of elevation of 30°. Write a set of parametric equations that model the basketball's horizontal and vertical position. 6. The basketball reaches its maximum height at t = 0.625 seconds. Using your parametric equations from part 5, determine the location of the basketball at its maximum height relative to the starting point. %3D

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Chapter1: Units, Trigonometry. And Vectors
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5. A basketball is thrown from the roof of the school building as part of a science
experiment examining gravity. The basketball is thrown from 25 feet above the
ground at an initial velocity of 40 feet per second and at an angle of elevation of
30°. Write a set of parametric equations that model the basketball's horizontal
and vertical position.
6. The basketball reaches its maximum height at t 0.625 seconds. Using your
parametric equations from part 5, determine the location of the basketball at its
maximum height relative to the starting point.
%3D
Transcribed Image Text:5. A basketball is thrown from the roof of the school building as part of a science experiment examining gravity. The basketball is thrown from 25 feet above the ground at an initial velocity of 40 feet per second and at an angle of elevation of 30°. Write a set of parametric equations that model the basketball's horizontal and vertical position. 6. The basketball reaches its maximum height at t 0.625 seconds. Using your parametric equations from part 5, determine the location of the basketball at its maximum height relative to the starting point. %3D
rectangular equation of the circle that
models the shape and location of the clock relative to the box.
Part 2
Parametric equations can be used to model more advanced situations, such as
projectile motion. Given
1
h(t) = ho + vo sin(0)t -gt?
initial velocity; g 3gravity; t = time; ho = initial height) you
%3D
(where h = height; vo =
will use parametric equations in the following Exploration.
%3D
%3D
%3D
Transcribed Image Text:rectangular equation of the circle that models the shape and location of the clock relative to the box. Part 2 Parametric equations can be used to model more advanced situations, such as projectile motion. Given 1 h(t) = ho + vo sin(0)t -gt? initial velocity; g 3gravity; t = time; ho = initial height) you %3D (where h = height; vo = will use parametric equations in the following Exploration. %3D %3D %3D
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