I Review | Constants The Cosmoclock 21 Ferris wheel in Yokohama City, Japan, has a diameter of 100 m. Its name comes from its 60 arms, each of which can function as a second hand (so that it makes one revolution every 60.0 s). Part A Find the speed of the passengers when the Ferris wheel is rotating at this rate. Express your answer in meters per second. ? v = m/s Submit Request Answer Part B A passenger weighs 862 N at the weight-guessing booth on the ground. What is his apparent weight at the lowest point on the Ferris wheel? Express your answer in newtons. ? Wlowest = N Submit Request Answer

I Review | Constants The Cosmoclock 21 Ferris wheel in Yokohama City, Japan, has a diameter of 100 m. Its name comes from its 60 arms, each of which can function as a second hand (so that it makes one revolution every 60.0 s). Part A Find the speed of the passengers when the Ferris wheel is rotating at this rate. Express your answer in meters per second. ? v = m/s Submit Request Answer Part B A passenger weighs 862 N at the weight-guessing booth on the ground. What is his apparent weight at the lowest point on the Ferris wheel? Express your answer in newtons. ? Wlowest = N Submit Request Answer

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Question

I Review | Constants
The Cosmoclock 21 Ferris wheel in Yokohama City,
Japan, has a diameter of 100 m. Its name comes
from its 60 arms, each of which can function as a
second hand (so that it makes one revolution every
60.0 s).
Part A
Find the speed of the passengers when the Ferris wheel is rotating at this rate.
Express your answer in meters per second.
?
V =
m/s
Submit
Request Answer
Part B
A passenger weighs 862 N at the weight-guessing booth on the ground. What is his apparent weight at the lowest point on the
Ferris wheel?
Express your answer in newtons.
Wlowest =
N
Submit
Request Answer

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