What causes a rollercoaster to slow down and stop?

The coaster will roll on indefinitely, or until of course the end of the track, where unbalanced forces like friction between the track and the wheels slow the coaster ultimately to a stop. The riders, which have inertia, are also acted on by unbalanced forces throughout the ride, causing them to change their motion.



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Once the cars are put into motion (potential is allowed to be converted into kinetic energy), they will not stop again until the brakes are applied at the end of the ride. The cars are slowed (negative acceleration) eventually to a stop, because of unbalanced forces due to friction acting on them.

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Gravity always pulls downward with the same strength, and, in the case of a roller coaster, it pulls downward on the cars wherever they are on the track. Near the bottom of a loop, gravity pulls in a direction away from the center of the loop circle.

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A roller coaster ride comes to an end. Magnets on the train induce eddy currents in the braking fins, giving a smooth rise in braking force as the remaining kinetic energy is absorbed by the brakes and converted to thermal energy.

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A roller coaster is a machine that uses gravity and inertia to send a train of cars along a winding track. The combination of gravity and inertia, along with g-forces and centripetal acceleration give the body certain sensations as the coaster moves up, down, and around the track.

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Friction is a force that opposes (goes against or opposite to) the motion of an object. If the roller coaster cars are moving to the east, the force of friction is to the west. The force of friction acts on the moving cars, decreasing the total amount of mechanical energy in the roller coaster.

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Basic mathematical subjects such as calculus help determine the height needed to allow the car to get up the next hill, the maximum speed, and the angles of ascent and descent. These calculations also help make sure that the roller coaster is safe. No doubt about it--math keeps you on track.

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A. Airtime – A favorite term for roller coaster enthusiasts! It's used to describe the feeling created by negative g-forces which gives riders the sensation of floating on a roller coaster. Airtime or negative g-forces are most commonly experienced on a drop or at the crest of hill.

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The coaster tracks serve to channel this force -- they control the way the coaster cars fall. If the tracks slope down, gravity pulls the front of the car toward the ground, so it accelerates. If the tracks tilt up, gravity applies a downward force on the back of the coaster, so it decelerates.

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Then there are the roller coasters, where an emergency stop immediately closes all of the brakes and turns off the lift and launch mechanisms, but the ride vehicles out on the course cannot be stopped until they encounter the brakes or drive systems.

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The maximum speed of a roller coaster is determined by the height at which the train is released or the energy input into the system via a launch, but there are additional factors that determine how far it will roll before stopping.

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14 Fun Facts About Roller Coasters
  • The American roller coaster was invented to save America from Satan. ...
  • One of the earliest coasters in America carried coal before it carried thrill seekers. ...
  • “Russian mountains” predated roller coasters—and Catherine the Great improved them. ...
  • Roller coaster loops are never circular.


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Most roller coasters run by the Law of Inertia. Since an object at rest stays at rest, all roller coasters have to be pushed or pulled to get started.

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If the tracks tilt up, gravity applies a downward force on the back of the coaster, so it decelerates. Since an object in motion tends to stay in motion (Newton's first law of motion), the coaster car will maintain a forward velocity even when it is moving up the track, opposite the force of gravity.

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Although coasters can definitely go faster, they're limited by the acceleration those higher speeds would require. Roller coasters reach their peak speeds in a matter of seconds.

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We see that velocity of the roller coaster is independent of its mass and is solely dependent on local g and initial h . Therefore, for an ideal roller coaster an empty roller coaster or a full roller coaster will take the same amount of time for a single trip.

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