Your answer is partially correct. (b) At the bottom of the ride, what is the perpendicular component of the rate of change of the rider's momentum? 17 (kg-m/ss Save for Later Last saved 20 minutes ago Attempts: 1 of 10 used Submit Amwer Saved work will be auto-submitted on the due date. Auto- submission can take up to 10 minutes.

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Part 2 Your answer is partially correct. (b) At the bottom of the ride, what is the perpendicular component of the rate of change of the rider's momentum? |ア kgm/ss dt Save for Later Last saved 20 minutes ago. Attempts: 1 of 10 used Submit Armwer Saved work will be auto-submitted on the due date. Auto- submission can take up to 10 minutes. Part 3 Your answer is partially correct. (c) At the bottom of the ride, what is the vector gravitational force exerted by the Earth on the rider? grav=< O Last saved 20 minutes ago. Attempts: 4 of 10 used Submit Answer Save for Later Saved work will be auto-submnitted on the due date. Auto- submission can take up to 10 minutes.

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A Ferris wheel is a vertical, circular amusement ride with radius 7,5 m. Riders sit on seats that swivel to remain horizontal The Ferris wheel rotates at a constant rate, going around once in 12.2 s. Consider a rider whose mass is 92 kg B. K H. Part 1 Your answer is correct. (a) At the bottom of the ride, what is the parallel component of the rate of change of the rider's momentum? p =< > (kg-misl/s di Attempts: 1 of 10 used