A Ferris wheel with a radius of 14 m makes one completerevolution every 30 s. The bottom of the wheel is 2.5 m above theground.a. Draw a graph to show how a person's height above theground varies with time during three revolutions, startingwhen the person gets on the Ferris wheel at its lowestpoint. b. Determine an equation for the graph.c. Predict how the graph and the equation will change if theFerris wheel turns more quickly. Justify your reasoning.

Given: The radius of the wheel is 14m. The wheel is 2.5 m above the ground. One revolution is…

Answered: A Ferris wheel with a radius of 14 m…

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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Using the 3:00 and 4:00 positions and figure out how far off the ground Al and Betty are when they reach each of those positions.
Given the image, 1. How long does it take the fish to complete one revolution of the wheel? 2. Approximately how long is the fish under water during each rotation? 3. What is the diameter of the water wheel? 4. Write the equation as a cosine function for height of the fish in terms of time.
Answer parts a and b. Make sure to show work! Please answer quickly. Please be right!! Thx.
Estrella is riding on a Ferris wheel that has a radius of 30 feet. She boarded the Ferris wheel at the 3:00 position; and, after she travelled approximately 4.2 radians around the wheel in the counterclockwise direction, the wheel stopped to allow another passenger to get on. If we draw a straight line between Estrella and the center of the Ferris wheel, the slope of this line would be 42 radians Estrella approximately –0.73 approximately –2.22 approximately 1.78 approximately 0.73 approximately 21.90
19. A Ferris wheel has a radius of 20 m. Passengers get on halfway up on the right side. The direction of rotation is counter clockwise. The bottom of the Ferris wheel is 2 m off the ground. It rotates every 36 seconds. a) Graph your height h above the ground as a function of time t.
Answer the following questions p
5) In figure below, object (A) is 12000 units above the x axis and moving to the left with a constant speed. The observer (R), on the x axis, sees that the object (A) is 30° above the horizon and its angle is increasing degrees each second. What is the speed of object A? 12,000

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