6. Atennis ball is hit from a height of 1.1m above the ground. The path of the tennis ball is modelled by the function h(d) = -0.012d? + 0.216d + 1.1, where dis the horizontal distance, in metres, and h(d) is the height, in metres. a) How far has the tennis ball travelled horizontally, to the nearest tenth of a m etre, when it lands on the ground? ball travels 22.14 m horizontally before landing on ground b) What was the maxim um height ball reached and at what time?

6. Atennis ball is hit from a height of 1.1m above the ground. The path of the tennis ball is modelled by the function h(d) = -0.012d? + 0.216d + 1.1, where dis the horizontal distance, in metres, and h(d) is the height, in metres. a) How far has the tennis ball travelled horizontally, to the nearest tenth of a m etre, when it lands on the ground? ball travels 22.14 m horizontally before landing on ground b) What was the maxim um height ball reached and at what time?

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Description: 6. Atennis ball is hit from a height of 1.1m above the ground. The path of the tennis ballis modelled by the function h(d) = -0.012d? + 0.216d + 1.1, where dis the horizontaldistance, in metres, and h(d) is the height, in metres.a) How far has the t

Physics for Scientists and Engineers, Technology Update (No access codes included)

9th Edition

ISBN:9781305116399

Author:Raymond A. Serway, John W. Jewett

Publisher:Raymond A. Serway, John W. Jewett

Chapter4: Motion In Two Dimensions

Section: Chapter Questions

Problem 4.75AP: A World War II bomber flies horizontally over level terrain with a speed of 275 m/s relative to the...

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