The Seattle ferris wheel has a radius of 11-m and travels with an angular velocity of 1.5 rad/sec. What is the normal force (apparent weight) acting on a 57-kg person at the bottom of the swing?
The Seattle ferris wheel has a radius of 11-m and travels with an angular velocity of...
A person rides a Ferris wheel that turns with constant angular velocity. Her weight is 563.0 N. At the top of the ride her apparent weight is 1.500 N different from her true weight. a) What is her apparent weight (in N) at the top of the ride? b) What is her apparent weight (in N) at the bottom of the ride? c) If the angular speed of the Ferris wheel is 0.0250 rad/s, what is its radius in meters?
1. A 40-kg person is riding on a Ferris wheel of radius 20-m. The wheel is moving with a speed of 6 m/s. Find the centripetal acceleration of the person on the ride. 2. Find the apparent weight (normal force) of the person in the previous question at a) the bottom of the wheel; b) the top of the wheel. 3. Suppose two stars orbit each other, each of the same mass as the Sun (2.0x10^30 kg). a) Find the...
A Ferris wheel of radius 10 meters starts from rest and completes one rotation in 20 seconds. A passenger of mass 50 kg sits on the Ferris wheel. Find the angular acceleration of the Ferris Wheel Find the angular velocity of the passenger at this time. Find the linear velocity of the passenger at this time. Find the magnitude and direction of the centripetal acceleration of the passenger at A. Find the magnitude and direction of the net force acting...
A person of mass 96 kg rides on a Ferris wheel whose radius is 5.2 m. The person's speed is constant at 0.5 m/s. The person's location is shown by a dot in the figure below. (a) What is the magnitude of the rate of change of the momentum of the person at the instant shown? (b) What is the direction of the rate of change of momentum of the person at the instant shown? O inward to the center...
1. A Ferris wheel has a radius of 6 m and makes one revolution in 4seconds (i.e. onerevolution in approximately 12.6 seconds). A person with a mass of 50 kg is sitting on one of thebenches attached to the rim. What is the normal force acting on a the person at the highest pointof the rotating Ferris wheel? Approximate the acceleration due to gravity as 10 m/s2; on a Ferriswheel, the passengers are never upside down. 2. Consider what happens...
A Ferris wheel is moving at an initial angular velocity of 1.0 rev/43 s. If the operator then brings it to a stop in 2.6 min, what is the angular acceleration of the Ferris wheel? Express your answer in rad/s2. rad/s2 Through how many revolutions will the Ferris wheel move while coming to a stop? please explain!!!
QUESTIONS 2 points Save Answer A Ferris wheel has diameter of 8 m and makes one revolution in 9.8 seconds. A person weighing 778.4 N is sitting on one of the benches attached at the rim of the wheel. What is the apparent weight(that is, the normal force exerted on her by the bench) of the person as she passes through the highest point of her tia?
3. A Ferris wheel has a radius of 20 m and rotates counter-clockwise at one revolution every 2.0 minutes. What is the normal force experienced by a 70 kg rider (a) at the top of the trajectory and (b) at the bottom? (c) At the bottom of the path, the rider releases an object from rest (relative to themselves), at a height of 2.0 m above the ground. How far along the ground does the object land?
A 2700-kg Ferris wheel accelerates from rest to an angular speed of 0.16 rad/s in 14 s . Approximate the Ferris wheel as a circular disk with a radius of 23 m . What is the net torque on the wheel? Net Torque = _____ m*N
A 50-g child riding a Ferris wheel with a radius of 10 m travels in a vertical cirele. The wheel completes one revolution every 10 s. If the seats of the wheel remains upright during the revolution, what is the magnitude of the force on the child by the seat at the highest point on the circular path? 3. A. 0.20 EN B. 0.29 EN C. 0.40 kN D. 0.49 kN E. 0.69 N A car enters a level, unbanked...