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A basketball​ player's hang time is the time spent in the air when shooting a basket. The formula t= ( √(d) )/(2) models hang​ time, t, in​ seconds, in terms of the vertical distance of a​ player's jump,
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A basketball​ player's hang time is the time spent in the air when shooting a basket. The formula
t= ( √(d) )/(2) models hang​ time, t, in​ seconds, in terms of the vertical distance of a​ player's jump,​ d, in feet. When a particular player dunked a​ basketball, his hang time for the shot was approximately 1.09 seconds. What was the vertical​ distance, d, of his​ jump, rounded to the nearest​ tenth?

User Tehp
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2 Answers

7 votes

Answer:

4.8 feet is the vertical​ distance.

Explanation:

Basketball​ player's hang time(t) relationship with vertical distance(d) of a​ player's jump is given by:


t=(√(d))/(2)


2* t=√(d)


4t^2=d


d=4t^2

So, the vertical distance of player when hang time is equal to 1.09 seconds.

t = 1.09 s


d=4* (1.09 s)^2

d = 4.7524 feet ≈ 4.8 feet

4.8 feet is the vertical​ distance.

User Albert Bos
by
6.2k points
7 votes
As with any problem involving formulas, fill in the information you have and solve for the remaining variable.
.. 1.09 =
( √(d))/(2)
..
(2 * 1.09)^(2) = d
.. d ≈ 4.8 . . . . feet
User Otieno Rowland
by
7.2k points
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