Trap shooting is a Competitors are required to sh air. The height, h(t), in meters, of one clay the function (4 marks) h(t) = -4t2 + 48t + 3 where, t represents time after launch, in seconds. Use the following window settings X:[0,15,1] Y:[0,150,1] • Determine the maximum height of the disk, to the nearest tenth of a meter is The time it takes for the disk to reach its maximum height, to the nearest tenth of a second is The height of the disk above the ground, to the nearest tenth of a meter, at its launching point. Determine how long, to the nearest tenth of a second, it took for the disk to hit the ground.

Algebra and Trigonometry (6th Edition)
6th Edition
ISBN:9780134463216
Author:Robert F. Blitzer
Publisher:Robert F. Blitzer
ChapterP: Prerequisites: Fundamental Concepts Of Algebra
Section: Chapter Questions
Problem 1MCCP: In Exercises 1-25, simplify the given expression or perform the indicated operation (and simplify,...
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Q3
Competitors are required to shoot the disk with a shotgun while the disk is h
aif. The height, h(t), in meters, of one clay disk afer it is launched is modeled by
the function (4 marks)
h(t) = -4t2 + 48t + 3
where, t represents time after launch, in seconds.
Use the following window settings
X:[0,15,1]
Y:[0,150,1]
• Determine the maximum height of the disk, to the nearest tenth of a meter is
The time it takes for the disk to reach its maximum height, to the nearest tenth of
a second is
The height of the disk above the ground, to the nearest tenth of a meter, at its
launching point.
Determine how long, to the nearest tenth of a second, it took for the disk to hit the
ground.
Transcribed Image Text:Q3 Competitors are required to shoot the disk with a shotgun while the disk is h aif. The height, h(t), in meters, of one clay disk afer it is launched is modeled by the function (4 marks) h(t) = -4t2 + 48t + 3 where, t represents time after launch, in seconds. Use the following window settings X:[0,15,1] Y:[0,150,1] • Determine the maximum height of the disk, to the nearest tenth of a meter is The time it takes for the disk to reach its maximum height, to the nearest tenth of a second is The height of the disk above the ground, to the nearest tenth of a meter, at its launching point. Determine how long, to the nearest tenth of a second, it took for the disk to hit the ground.
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