00 Vo 70° 5 m A carnival ride is designed to allow the general public to experience high-acceleration motion. The ride rotates about point O in a horizontal circle such that the rider has a speed vo. The rider reclines on a platform A which rides on rollers such that friction is negligible. A mechanical stop prevents the platform from rolling down the incline. Determine (a) the speed vo at which the platform A begins to roll upward, (b) the normal force experienced by an 80-kg rider at this speed. Vo 15 m 70° 5 m
00 Vo 70° 5 m A carnival ride is designed to allow the general public to experience high-acceleration motion. The ride rotates about point O in a horizontal circle such that the rider has a speed vo. The rider reclines on a platform A which rides on rollers such that friction is negligible. A mechanical stop prevents the platform from rolling down the incline. Determine (a) the speed vo at which the platform A begins to roll upward, (b) the normal force experienced by an 80-kg rider at this speed. Vo 15 m 70° 5 m
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Question
The carnival ride from Prob. 12.51 is modified so that the 80-kg riders can move up and down the inclined wall as the speed of the ride increases. Assuming that the friction between the wall and the carriage is negligible, determine the position h of the rider if the speed v0 = 13 m/s.
Reference to Problem 12.51:
Transcribed Image Text:00
Vo
70°
5 m
Transcribed Image Text:A carnival ride is designed to allow the general public to experience
high-acceleration motion. The ride rotates about point O in a
horizontal circle such that the rider has a speed vo. The rider reclines
on a platform A which rides on rollers such that friction is negligible.
A mechanical stop prevents the platform from rolling down the
incline. Determine (a) the speed vo at which the platform A begins
to roll upward, (b) the normal force experienced by an 80-kg rider
at this speed.
Vo
15 m
70°
5 m
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