An object dropped from a height of 600 feet has a height, h (t), in feet after t seconds have elapsed, such that h (t) = 600 - 16t^2. Express t as a function of height h, and find the time to reach a heigh of 50 feet

Question

Mathematics

Litzy Duran

13 July, 11:33

An object dropped from a height of 600 feet has a height, h (t), in feet after t seconds have elapsed, such that h (t) = 600 - 16t^2. Express t as a function of height h, and find the time to reach a heigh of 50 feet

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Terminator · Answer 1

t as a function of height h is t = √600 - h/16

The time to reach a height of 50 feet is 5.86 minutes

Step-by-step explanation:

Function for height is h (t) = 600 - 16t²

where t = time lapsed in seconds after an object is dropped from height of 600 feet

t as a function of height h

replacing the function with variable h

h = 600 - 16t²

Solving for t

Subtracting 600 from both side

h - 600 = - 16t²

Divide through by - 16

600 - h / 16 = t²

Take square root of both sides

√600 - h/16 = t

Therefore, t = √600 - h/16

Time to reach height 50 feet

t = √600 - h/16

substituting h = 50 in the equation

t = √600 - 50/16

t = √550/16

t = 34.375

t = 5.86 minutes