On a Ferris wheel, at certain parts of the motion, gravity plays a role in providing the necessary radial acceleration. Specifically, at the top of the circle, gravity is pulling toward the center of motion, and at the bottom of the circle, gravity is pulling away from the center of motion. A passenger moves in a vertical circle of radius R with constant speed v. (a) Assuming that the seat remains upright during the motion, derive expressions for the magnitude of the upward force the seat exerts on the passenger at the top and bottom of the circle if the passenger's mass is m. (b) What are these forces if the passenger's mass is 60 0 kg, the radius of the circle is R wheel makes one revolution in 10.0 s? How do they compare with the passenger's actual weight? 10.00 m and the

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Item 12 On a Ferris wheel, at certain parts of the motion, gravity plays a role in providing the necessary radial acceleration. Specifically, at the top of the circle, gravity is pulling toward the center of motion, and at the bottom of the circle, gravity is pulling away from the center of motion. A passenger moves in a vertical circle of radius R with constant speed 2. (a) Assuming that the seat remains upright during the motion, derive expressions for the magnitude of the upward force the seat exerts on the passenger at the top and bottom of the circle if the passenger's mass is m. (b) What are these forces if the passenger's mass is 60.0 kg. the radius of the circle is R 10.00 m'and the wheel makes one revolution in 10.0 s? How do they compare with the passenger's actual weight?

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How fast would the passenger need to be traveling at the top of the Ferris wheel to no longer feel a force from the seat? Express your answer with the appropriate units. Value Units