A Ferris wheel completes 1 revolution every 18 seconds. At the top, a seat is 16 metres above the ground. At the bottom, it is 1m from the ground. Assume the rider boards the Ferris wheel at the bottom of the wheel. a) What is the period of the Ferris wheel? The amplitude? b) What is the radius of the Ferris wheel? c) How high is the axle above the ground? d) What is the equation of this function? e) Construct a graph showing at least 1 full cycle.
A Ferris wheel completes 1 revolution every 18 seconds. At the top, a seat is 16 metres above the ground. At the bottom, it is 1m from the ground. Assume the rider boards the Ferris wheel at the bottom of the wheel. a) What is the period of the Ferris wheel? The amplitude? b) What is the radius of the Ferris wheel? c) How high is the axle above the ground? d) What is the equation of this function? e) Construct a graph showing at least 1 full cycle.
Advanced Engineering Mathematics
10th Edition
ISBN:9780470458365
Author:Erwin Kreyszig
Publisher:Erwin Kreyszig
Chapter2: Second-order Linear Odes
Section: Chapter Questions
Problem 1RQ
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1. A Ferris wheel completes 1 revolution every 18 seconds. At the top, a seat is 16 metres above the
ground. At the bottom, it is 1m from the ground. Assume the rider boards the Ferris wheel at the
bottom of the wheel.
a) What is the period of the Ferris wheel? The amplitude?
b) What is the radius of the Ferris wheel?
c) How high is the axle above the ground?
d) What is the equation of this function?
e) Construct a graph showing at least 1 full cycle.
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