A catapult launches a boulder with an upward velocity of 184 feet per second. the height of the boulder, (h), in feet after t seconds is given by the function h (t) = - 16t^2+184t+20. How long does it take the boulder to reach its maximum height? What is the boulder's maximum height? Round to the nearest hundredth, if necessary.

Question

Mathematics

Kaliyah Cherry

19 April, 03:52

A catapult launches a boulder with an upward velocity of 184 feet per second. the height of the boulder, (h), in feet after t seconds is given by the function h (t) = - 16t^2+184t+20. How long does it take the boulder to reach its maximum height? What is the boulder's maximum height? Round to the nearest hundredth, if necessary.

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Answers (1)

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Enrique Duffy · Answer 1

Given:

Upward velocity of 184 feet per second

Height of boulder:

h (t) = - 16t^2+184t+20

Since we are given the velocity, we need to differentiate the equation to reach an equation for velocity:

v (t) = - 32t + 184

now, substitute the value of velocity:

-184 feet per second = - 32t + 184

-368 = - 32t

t = 11.5 seconds to reach the maximum height

It takes 11.5 seconds for the boulder to reach the maximum height. The max height is

h (t) = - 16t^2+184t+20

where t = 11.5 s

h (t) = - 16 (11.5) ^2 + 184 (11.5) + 20

h (t) = 20 feet