A person sitting on a Ferris wheel rises and falls as the wheel turns. Suppose that the person's height above ground is described by the following function. h(t) = 20.6+ 18.4 sin 1.5t In this equation, h (t) is the height above ground in meters, and I is the time in minutes. Find the following. If necessary, round to the nearest hundredth. Time for one complete revolution: 1 minutes Maximum height above the ground: meters Number of revolutions per minute: X
A person sitting on a Ferris wheel rises and falls as the wheel turns. Suppose that the person's height above ground is described by the following function. h(t) = 20.6+ 18.4 sin 1.5t In this equation, h (t) is the height above ground in meters, and I is the time in minutes. Find the following. If necessary, round to the nearest hundredth. Time for one complete revolution: 1 minutes Maximum height above the ground: meters Number of revolutions per minute: X
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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Transcribed Image Text:Word problem involving a sine or cosine function: Problem type 2
A person sitting on a Ferris wheel rises and falls as the wheel turns. Suppose that the person's height above ground is described by the following
function.
h(t) =
In this equation, h (t) is the height above ground in meters, and t is the time in minutes.
Find the following. If necessary, round to the nearest hundredth.
=
= 20.6+18.4 sin 1.5t
Time for one complete revolution: 1 minutes
Maximum height above the ground: meters
Number of revolutions per minute:
1/5
G
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