Ferris wheel that is 30 m in diameter makes a revolution every 60 seconds. The center of the wheel is 17 m above the ground. Which equation represent the graph that models the height in relation to time of the path the Ferris wheel makes. Assume the rider starts at the lowest point. A h(t)= -15 cos(πt/30)+17 B. h(t)= 15 cos(πt/30)+17 C h(t) = -15 sin(πt/30)+17 D. h(t)= 15 sin(πt/30)+17
Ferris wheel that is 30 m in diameter makes a revolution every 60 seconds. The center of the wheel is 17 m above the ground. Which equation represent the graph that models the height in relation to time of the path the Ferris wheel makes. Assume the rider starts at the lowest point. A h(t)= -15 cos(πt/30)+17 B. h(t)= 15 cos(πt/30)+17 C h(t) = -15 sin(πt/30)+17 D. h(t)= 15 sin(πt/30)+17
College Algebra (MindTap Course List)
12th Edition
ISBN:9781305652231
Author:R. David Gustafson, Jeff Hughes
Publisher:R. David Gustafson, Jeff Hughes
Chapter5: Exponential And Logarithmic Functions
Section5.2: Applications Of Exponential Functions
Problem 48E
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A Ferris wheel that is 30 m in diameter makes a revolution every 60 seconds. The center of the wheel is 17 m above the ground.
Which equation represent the graph that models the height in relation to time of the path the Ferris wheel makes. Assume the rider starts at the lowest point.
A h(t)= -15 cos(πt/30)+17
B. h(t)= 15 cos(πt/30)+17
C h(t) = -15 sin(πt/30)+17
D. h(t)= 15 sin(πt/30)+17
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