d) At what rate does the cylinder spin 2 (8.51). In the amusement park ride shown here, the passengers are against the wall of a cylinder that rotates vertically. The diameter of the cylinder is 16 m. The cylinder rotates once every 4.5 sec. a) Draw a force diagram for a 55-kg passenger at the top of the ride. Show the weight and normal force vectors. b) What is the normal force? How many "g's" will the passenger feel? c) Draw a force diagram for a 55-kg passenger at the bottom of the ride. Show the weight and normal Force vectors. What is the normal force? How many "g's" will the passenger feel? ation
d) At what rate does the cylinder spin 2 (8.51). In the amusement park ride shown here, the passengers are against the wall of a cylinder that rotates vertically. The diameter of the cylinder is 16 m. The cylinder rotates once every 4.5 sec. a) Draw a force diagram for a 55-kg passenger at the top of the ride. Show the weight and normal force vectors. b) What is the normal force? How many "g's" will the passenger feel? c) Draw a force diagram for a 55-kg passenger at the bottom of the ride. Show the weight and normal Force vectors. What is the normal force? How many "g's" will the passenger feel? ation
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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![d) At what rate does the cylinder spiñn
2 (8.51). In the amusement park ride shown here, the passengers are against the wall of a cylinder that
rotates vertically. The diameter of the cylinder is 16 m. The cylinder rotates once every 4.5 sec.
a) Draw a force diagram for a 55-kg passenger at the top of the ride. Show the weight and normal force
vectors.
b) What is the normal force? How many "g's" will the passenger feel?
c) Draw a force diagram for a 55-kg passenger at the bottom of the ride. Show the weight and normal
force vectors.
) What is the normal force? How many “g's" will the passenger feel?
ation
e the ride above is going at the minimum speed for passengers not to fall off.
peed, what would the normal force be on a passenger at the top? What would th](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F14295a3b-b65d-4dbc-b7d5-21fcf747f928%2Ff2c3a7b4-1e4d-4a2a-8e5a-59824e1b7f93%2Fg92qqp_processed.jpeg&w=3840&q=75)
Transcribed Image Text:d) At what rate does the cylinder spiñn
2 (8.51). In the amusement park ride shown here, the passengers are against the wall of a cylinder that
rotates vertically. The diameter of the cylinder is 16 m. The cylinder rotates once every 4.5 sec.
a) Draw a force diagram for a 55-kg passenger at the top of the ride. Show the weight and normal force
vectors.
b) What is the normal force? How many "g's" will the passenger feel?
c) Draw a force diagram for a 55-kg passenger at the bottom of the ride. Show the weight and normal
force vectors.
) What is the normal force? How many “g's" will the passenger feel?
ation
e the ride above is going at the minimum speed for passengers not to fall off.
peed, what would the normal force be on a passenger at the top? What would th
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