A volleyball is hit when it is 4 ft above the ground and 12 ft from a 6-ft-high net. It leaves the point of impact with an initial velocity of 35 ft/sec at an angle of 33° and slips by the opposing team untouched. The acceleration due to gravity is g= 32 ft/sec. Answer the following questions. a. Find a vector form for the path of the volleyball. r(t) = 35 cos (33) -ti+ 16 - 35 sin (33) - 4j (Do not evaluate. Do not include the degree symbol in your answer.)
A volleyball is hit when it is 4 ft above the ground and 12 ft from a 6-ft-high net. It leaves the point of impact with an initial velocity of 35 ft/sec at an angle of 33° and slips by the opposing team untouched. The acceleration due to gravity is g= 32 ft/sec. Answer the following questions. a. Find a vector form for the path of the volleyball. r(t) = 35 cos (33) -ti+ 16 - 35 sin (33) - 4j (Do not evaluate. Do not include the degree symbol in your answer.)
Algebra & Trigonometry with Analytic Geometry
13th Edition
ISBN:9781133382119
Author:Swokowski
Publisher:Swokowski
Chapter11: Topics From Analytic Geometry
Section: Chapter Questions
Problem 18T
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