Suppose you take a ride on a Ferris Wheel that has a radius of 100 feet. The center of the wheel is 110 feet above the ground and it takes 20 minutes to make a complete revolution. You board in the 6:00 position. Write an equation for h(t), which models your height above the ground, in feet, as a function of the time t, in minutes, since you boarded the Ferris Wheel. Your equation should refer to radians, not to degrees. Indicate the amplitude, the period and the equation of the midline. 3.1 Equation: h(t) = 3.2 Amplitude: 3.3 Period: 3.4 Midline:
Suppose you take a ride on a Ferris Wheel that has a radius of 100 feet. The center of the wheel is 110 feet above the ground and it takes 20 minutes to make a complete revolution. You board in the 6:00 position. Write an equation for h(t), which models your height above the ground, in feet, as a function of the time t, in minutes, since you boarded the Ferris Wheel. Your equation should refer to radians, not to degrees. Indicate the amplitude, the period and the equation of the midline. 3.1 Equation: h(t) = 3.2 Amplitude: 3.3 Period: 3.4 Midline:
Calculus: Early Transcendentals
8th Edition
ISBN:9781285741550
Author:James Stewart
Publisher:James Stewart
Chapter1: Functions And Models
Section: Chapter Questions
Problem 1RCC: (a) What is a function? What are its domain and range? (b) What is the graph of a function? (c) How...
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Transcribed Image Text:Suppose you take a ride on a Ferris Wheel that has a radius of 100 feet. The center of the wheel is 110 feet
above the ground and it takes 20 minutes to make a complete revolution. You board in the 6:00 position.
Write an equation for h(t), which models your height above the ground, in feet, as a function of the time t, in
minutes, since you boarded the Ferris Wheel. Your equation should refer to radians, not to degrees. Indicate
the amplitude, the period and the equation of the midline.
3.1
Equation: h(t) =,
3.2 Amplitude:
3.3 Period:
3.4 Midline:
3.5 Determine the angular speed of the Ferris wheel. Units should be degrees per minute.
The angular speed is
degrees per minute.
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