Tanisha kicks a soccer ball during a game. The height of the ball, in feet, can be modeled by the function f (x) = - 16x squared + 48x, where x is the time in seconds after she kicks the ball. Graph the function. Find the maximum height of the ball and how long it takes the ball to reach that height?

Question

Mathematics

Obie

14 August, 22:34

Tanisha kicks a soccer ball during a game. The height of the ball, in feet, can be modeled by the function f (x) = - 16x squared + 48x, where x is the time in seconds after she kicks the ball. Graph the function. Find the maximum height of the ball and how long it takes the ball to reach that height?

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Answers (1)

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Annabel Ortiz · Answer 1

The first thing we are going to do in this case is to rewrite the function:

f (x) = - 16x ^ 2 + 48x

We look for the first derivative:

f ' (x) = - 32x + 48

We match zero:

0 = - 32x + 48

We clear x:

32x = 48

x = 48/32 = 24/16 = 12/8 = 6/4 = 3/2

x = 3/2

We verify if this value is a maximum or minimum with the second derivative:

f '' (x) = - 32

We evaluate in x = 3/2:

f '' (3/2) = - 32 (<0 Is a maximum)

Therefore the maximum height is reached in:

x = 1.5 s

The height is:

f (1.5) = - 16 * (1.5) ^ 2 + 48 * (1.5)

f (1.5) = 36 feet

Answer:

The maximum height of the ball is:

36 feet

and it takes the ball to reach that height а bout:

1.5 s