What would happen if there was only one hill on a roller coaster?

Suggested answer: Roller coaster designers include a second hill to build up more potential energy that can be converted to kinetic energy as the roller coaster goes down the hill. If there were only one hill, the ride would have less energy and would be shorter.



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I the height of the second hill is higher than the first one, then it needs additional energy to climb the second hill. The coaster keeps on losing energy from air resistance and rolling friction between the rails and the coaster wheels and will eventually come to rest.

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(d) Due to frictional lost, the mechanical energy of the coaster has decreased, so the second hill has to be lower than the first one.

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Each gain in height corresponds to the loss of speed as kinetic energy (due to speed) is transformed into potential energy (due to height). Each loss in height corresponds to a gain of speed as potential energy (due to height) is transformed into kinetic energy (due to speed).

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This places some limits on the design. For example, the coaster car can't go through a loop or over a hill that is taller than the initial hill because going higher would require more energy than it has available. If the track is too long, friction might eventually cause the coaster car to come to a complete stop.

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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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TMNT Shellraiser at 121.5 degrees It tops the list by dropping a mere half of a degree more than the coasters that follow it. To make the ride even more interesting, its cars hang over the edge of its 141-foot tower for 14 seconds before diving into the overbanked drop.

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The purpose of the coaster's initial ascent is to build up a sort of reservoir of potential energy. The concept of potential energy, often referred to as energy of position, is very simple: As the coaster gets higher in the air, gravity can pull it down a greater distance. You experience this phenomenon all the time.

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Lift hills usually propel the train to the top of the ride via one of two methods: a chain lift involving a long, continuous chain which trains hook on to and are carried to the top; or a drive tire system in which multiple motorized tires (known as friction wheels) push the train upwards.

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Roller coasters are driven almost entirely by basic inertial, gravitational and centripetal forces, all manipulated in the service of a great ride.

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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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There is a strong relationship between the height and speeds of the roller coasters, that is, in general, faster roller coasters tend to be taller.

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Mass does not make a roller coaster go faster but it does make it harder to slow down. This is why amusement parks test roller coasters with dummies filled with water. The water dummies increase the mass of the train making it harder for the resistance forces to slow it down so it's less likely to get stuck.

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Roller coasters almost always begin with an initial vertical drop. A motor hauls the cars to the top of a high hill and from that point on gravity is doing all the work. Typical vertical drops might range in height from 50 - 80 meters.

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Energy conservation Rollercoasters constantly shift between tapping into potential and kinetic energy. The kinetic energy gained when the train travels down the first hill – or fires out of the launch – gets it up the next, smaller hill.

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