A 53.8 kg passenger in a roller coaster car goes through the bottom of a 13.9 m radius loop and measures their apparent weight to be 901 Newtons.
1600 m = 1 mile
3600 s = 1 hr
What speed did the rider go through the bottom of the loop?
A 53.8 kg passenger in a roller coaster car goes through the bottom of a 13.9...
The weight of passengers on a roller coaster increases by 59% as the car goes through a dp with a 38 m radius of curvature. What is the cars speed at the bottom of the dip? Express your answer to two significant figures and include the appropriate units.
The passengers in a roller coaster car feel 1.20 times heavier than their true weight as the car goes through a dip with a 28.0 m radius of curvature. What is the car's speed at the bottom of the dip?
URGENTTT The passengers in a roller coaster car feel 1.70 times heavier than their true weight as the car goes through a dip with a 24.0 m radius of curvature. What is the car's speed at the bottom of the dip?
A roller coaster at an amusement park has a dip that bottoms out in a vertical circle of radius r. A passenger feels the seat of the car pushing upward on her with a force equal to twice her weight as she goes through the dip. If r = 20.0 m, how fast is the roller coaster traveling at the bottom of the dip?
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A roller coaster at an amusement park has a dip that bottoms out in a vertical circle of radius r. A passenger feels the seat of the car pushing upward on her with a force equal to three times her weight as she goes through the dip. If r = 18.0 m, how fast is the roller coaster traveling at the bottom of the dip? The answer is NOT 26.56
At the top of a looped section of roller coaster track, the car and rider are completely upside down. What information is necessary to calculate the minimum speed of the car that will prevent a rider from falling out of it? Assume the rider is not strapped into the car. A.) the radius of the loop, the mass of the rider. and the mass of the car b. the mass of the rider and the width of the track c....
4. A roller coaster executes a 10 m radius loop-the-loop at a speed of 20 m/s. How heavy does a 50-kg passenger feel at the top of the loop? (Hint: draw a free body diagram. The apparent weight of the passenger is the normal force on the passenger).
1. Based on Problem 12.47 from the text. Suppose a roller coaster descends through a curve in a "vertical plane" (a) Initially the coaster rides along a segment with radius of curvature 30m. The speed of the car is 120 km/hr as it approaches point A. What is the normal force experienced by the rider relative to his or her weight just as it arrives at point A? Equivalently, how many "g's" is this? (b) After leaving point A, the...
4) When sitting in a roller coaster going through a vertical loop of radius of 8.5 meters, your "ap- parent' weight is the normal force provided by the seat, while your "true" weight is the gravitational force (which is unluckily unchangeable at mg) a) How fast must you be moving at the top of the vertical loop to achieve weightlessness (i.e., to have no apparent weight)? b) If moving at the same speed on the bottom of the vertical loop,...