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A model for the height h (in feet) of a Ferris wheel car is h = 70 + 70 sin(4at), where t is the time (in minutes). (The Ferris wheel has a radius of 70 feet.) This model yields a height of 70 feet when t = 0. Alter the model so that the height of the car is 1 foot when t = 0. (Assume that 1 foot is the minimum value of the model.)

A model for the height h (in feet) of a Ferris wheel car is h = 70 + 70 sin(4at), where t is the time (in minutes). (The Ferris wheel has a radius of 70 feet.) This model yields a height of 70 feet when t = 0. Alter the model so that the height of the car is 1 foot when t = 0. (Assume that 1 foot is the minimum value of the model.)

Advanced Engineering Mathematics
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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A model for the height h (in feet) of a Ferris wheel car is h = 70 + 70 sin(47t), where t is the time (in minutes). (The Ferris wheel has a radius of 70 feet.) This model yields a height of 70 feet when t = 0. Alter the model so that the height of the car is 1 foot when t = 0. (Assume that 1 foot is the minimum value of the model.) 0t+3 h = 71 + 70 sin
Transcribed Image Text:A model for the height h (in feet) of a Ferris wheel car is h = 70 + 70 sin(47t), where t is the time (in minutes). (The Ferris wheel has a radius of 70 feet.) This model yields a height of 70 feet when t = 0. Alter the model so that the height of the car is 1 foot when t = 0. (Assume that 1 foot is the minimum value of the model.) 0t+3 h = 71 + 70 sin
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