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A Ferris wheel at a carnival has a radius of 10 m and turns so that...
1. A Ferris wheel at a carnival has a radius of 8 m and turns so...
1. A Ferris wheel at a carnival has a radius of 8 m and turns so that the speed of the riders is 11 m/s. (a) What is the magnitude of the centripetal acceleration of the riders? (b) What is the magnitude of the net force is required to produce this centripetal acceleration for a rider with a mass of 65 kg? 2.Two 325-kg masses (722 lb) are separated by a distance of 6 m. Using Newton's law of gravitation,...
A woman rides a carnival Ferris wheel at radius 18 m, completing 5.8 turns about its...
A woman rides a carnival Ferris wheel at radius 18 m, completing 5.8 turns about its horizontal axis every minute. What are (a) the period of the motion, and the magnitude of her centripetal acceleration at (b) the highest point and (c) the lowest point?
A woman rides a carnival Ferris wheel at radius 25 m, completing 5.9 turns about its...
A woman rides a carnival Ferris wheel at radius 25 m, completing 5.9 turns about its horizontal axis every minute. What are (a) the period of the motion, and the magnitude of her centripetal acceleration at (b) the highest point and (c) the lowest point? (a) Number (b) Number (c) Number Units Units Units
A Ferris wheel is a vertical, circular amusement ride with radius 8.5 m. Riders sit on...
A Ferris wheel is a vertical, circular amusement ride with radius 8.5 m. Riders sit on seats that swivel to remain horizontal. The Ferris wheel rotates at a constant rate, going around once in 7.3 s. Consider a rider whose mass is 73 kg. a. At the bottom of the ride, what is the vector gravitational force exerted by the Earth on the rider? b. At the top of the ride, what is the rate of change of the rider's...
Suppose you're on a Ferris wheel at a carnival, seated 10 m from the Ferris wheel's...
Suppose you're on a Ferris wheel at a carnival, seated 10 m from the Ferris wheel's axis. If you make a complete rotation each minute, what is your linear speed? Two 600 -kg masses are separated by a distance of 64 m. Using Newton's law of gravitation, find the magnitude of the gravitational force exerted by one mass on the other. [G = 6.67 times 10^-11 N m^2/kg^2]
Joe has a weight of 700 N (about 159 lb) when he is standing on the...
Joe has a weight of 700 N (about 159 lb) when he is standing on the surface of the Earth. What would his weight (the gravitational force due to the Earth) be if he doubled his distance from the center of the Earth by flying in a spacecraft?
1. A 40-kg person is riding on a Ferris wheel of radius 20-m. The wheel is...
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...
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...
1. A Ferris wheel has a radius of 6 m and makes one revolution in 4seconds...
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 54.0-kg child takes a ride on a Ferris wheel that rotates four times each minute and has a diameter of 20.0 m.
A 54.0-kg child takes a ride on a Ferris wheel that rotates four times each minute and has a diameter of 20.0 m. (a) What is the centripetal acceleration of the child? (b) What force (magnitude and direction) does the seat exert on the child at the lowest point of the ride? (c) What force does the seat exert on the child at the highest point of the ride? (d) What force does the seat exert on the child when the child is halfway...
A woman rides a carnival Ferris wheel at radius 25 m, completing 5.9 turns about its horizontal axis every minute. What are (a) the period of the motion, and the magnitude of her centripetal acceleration at (b) the highest point and (c) the lowest point? (a) Number (b) Number (c) Number Units Units Units
Suppose you're on a Ferris wheel at a carnival, seated 10 m from the Ferris wheel's axis. If you make a complete rotation each minute, what is your linear speed? Two 600 -kg masses are separated by a distance of 64 m. Using Newton's law of gravitation, find the magnitude of the gravitational force exerted by one mass on the other. [G = 6.67 times 10^-11 N m^2/kg^2]
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...
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